Identification_Information: Citation: Citation_Information: Originator: Eric D. Anderson Originator: Steven M. Smith Originator: Stuart A. Giles Originator: Matthew Granitto Originator: Robert G. Eppinger Originator: Anjana K. Shah Originator: Karen D. Kelley Originator: David L. Fey Originator: Burke M. Minsley Originator: Philip J. Brown II Publication_Date: 2011 Title: Geophysical, Geochemical, and Mineralogical Data from the Pebble Cu-Au-Mo Porphyry Deposit Area, Southwest Alaska: Contributions to Assessment Techniques for Concealed Mineral Resources Edition: Version 1.0 Geospatial_Data_Presentation_Form: tabular data Series_Information: Series_Name: U.S. Geological Survey Data Series Issue_Identification: DS 608 Publication_Information: Publication_Place: Denver, CO Publisher: U.S. Geological Survey Online_Linkage: http://pubs.usgs.gov/ds/608 Description: Abstract: The Microsoft Access database serves as a geochemical data warehouse in support of the Pebble Deposit Project, and contains data tables describing quantitative and qualitative geochemical analyses determined by 51 analytical laboratory and field methods for 4,035 sediment, soil, heavy-mineral concentrate, rock and vegetation samples, all of which were collected by USGS personnel and analyzed either in the analytical laboratories of the Mineral Resource Program of the USGS or by contract with commercial analytical laboratories. Purpose: This database was initiated, designed, and populated to collect and integrate geochemical data from Pebble deposit area, Alaska in order to facilitate geologic mapping, petrologic studies, mineral resource assessment, defining geochemical baseline values and statistics, environmental impact assessment, and medical geology. Supplemental_Information: Tabular datafiles included in this dataset are: PebbleGeochem.mdb Time_Period_of_Content: Time_Period_Information: Range_of_Dates/Times: Beginning_Date: 2007 Ending_Date: 2011 Currentness_Reference: sample collection and analysis period Status: Progress: complete Maintenance_and_Update_Frequency: No further update or maintenance is planned for the Pebble deposit database. However, the National Geochemical Database (NGDB) is updated annually with new data although there is a deliberate lag time of 2-5 years before recent data are added. Some of these data may be within the boundaries of the Pebble deposit area. The error-identification and correction process for the NGDB continues to generate changes at episodic intervals. Most changes are primarly related to 1) additional information on the exact sample medium analyzed, 2) adding location coordinates where there were none, and 3) correcting location coordinates known to be inaccurate. Spatial_Domain: Bounding_Coordinates: West_Bounding_Coordinate: -155.68426 East_Bounding_Coordinate: -155.03283 North_Bounding_Coordinate: 60.03541 South_Bounding_Coordinate: 59.7293 Keywords: Theme: Theme_Keyword_Thesaurus: none Theme_Keyword: Pebble deposit Theme_Keyword: exploration geochemistry Theme_Keyword: environmental geochemistry Theme_Keyword: sediment chemistry Theme_Keyword: vegetation chemistry Theme_Keyword: soil chemistry Theme_Keyword: rock chemistry Theme_Keyword: water chemistry Theme_Keyword: indicator mineralogy Theme_Keyword: geochemical data Place: Place_Keyword_Thesaurus: none Place_Keyword: United States of America Place_Keyword: Alaska Place_Keyword: Iliamna Quadrangle Place_Keyword: South Alaska Range Place_Keyword: Southwest Alaska Access_Constraints: none Use_Constraints: none Point_of_Contact: Contact_Information: Contact_Person_Primary: Contact_Person: Matthew Granitto Contact_Organization: U.S. Geological Survey Contact_Address: Address_Type: mailing and physical address Address: Box 25046, Denver Federal Center, MS 973 City: Denver State_or_Province: Colorado Postal_Code: 80225 Country: United States of America Contact_Voice_Telephone: 1-303-236-1412 Contact_Facsimile_Telephone: 1-303-236-3200 Contact_Electronic_Mail_Address: granitto@usgs.gov Data_Set_Credit: Matthew Granitto Native_Data_Set_Environment: Microsoft Access 2003 Cross_Reference: Citation_Information: Originator: U.S. Geological Survey (USGS) Publication_Date: 2011 Title: Geophysical, Geochemical, and Mineralogical Data from the Pebble Cu-Au-Mo Porphyry Deposit Area, Southwest Alaska: Contributions to Assessment Techniques for Concealed Mineral Resources Geospatial_Data_Presentation_Form: document Series_Information: Series_Name: U.S. Geological Survey Data Series Issue_Identification: 608 Publication_Information: Publication_Place: Denver, CO Publisher: U.S. Geological Survey Data_Quality_Information: Attribute_Accuracy: Attribute_Accuracy_Report: The data of this dataset represent analyses of geologic, aqueous, and organic material samples collected in support of the Pebble porphyry copper-gold-molydenum (Cu-Au-Mo) deposit in southwest Alaska. The samples in this dataset were chemically and mineralogically analyzed by USGS laboratories and USGS-contracted laboratories over the period 2007-2011. Analytical techniques have been documented in USGS and private laboratory publications. For some elements, the methods of chemical analysis were the same throughout the study, while for others, the methods were used during one year of the study. >1) Coordinates: When samples were brought in for analysis, the submitter was required to include information about the sample for the database; descriptions, geocoding, and latitude-longitude coordinates. The sample location field sites were located using GPS receivers. The locations determined by GPS should be accurate to the nearest latitude or longitude second. >2) Geocoding: The submission of sample descriptive information (geocoding) with samples was mandatory for some fields and optional for others. >3) Analytical Data: The samples in this data set were chemically analyzed by a variety of techniques over a period of time from 2007 to 2011. The accuracy of the data varies with the analytical methodology and with the concentration of the element being analyzed. >4) Qualifiers: A qualifier such as "<" (less than the detection limit of the analytical method) or ">" (greater than the upper determination limit of the analytical method) accompanies some analytical data values. These qualifiers are defined as follows: >"<" = the element concentration was determined to be less than the lower determination limit for the method for this element. The value of the lower limit of determination is given in the adjacent data field. >">" = the element was measured at a concentration greater than the upper determination limit for the method. The upper limit of determination is given in the adjacent data field. Logical_Consistency_Report: Data have been analyzed using uniform documented techniques. For some elements, the methods of chemical analysis were the same throughout the study, while for others, the methods changed as analytical technology improved. Some of the methods used were specifically designed to give a concentration value based on a partial digestion or extraction of the sample. For these methods elements tightly bound in the structure of silicates in the sample are not measured. Therefore, the analytical results from these partial extraction techniques may not be comparable with results from methods designed to measure the total concentration of an element in a sample. Completeness_Report: This data set provides chemical data for Ag, Al, As, Au, B, Ba, Be, Bi, Br, Ca, Cd, Ce, Cl, Co, Cr, Cs, Cu, Dy, Er, Eu, Fe, Fe(II), Fe(III), Ga, Gd, Ge, F, Hf, Hg, Ho, I, In, Ir, K, La, Li, Lu, Mg, Mn, Mo, Na, Nb, Nd, Ni, NO3, Os, P, Pb, Pd, Pr, Pt, Rb, Re, Rh, Ru, S, Sb, Sc, Se, Si, Sm, Sn, SO4, Sr, Ta, Tb, Te, Th, Ti, Tl, Tm, U, V, W, Y, Yb, Zn, Zr, forms of carbon, acidity, alkalinity, conductance, dissolved oxygen, turbidity, stream discharge and pH. It also provides mineralogic data for a wide range of parameters such as relative mineral abundance, mineral grain count, gold grain measurement, sample fraction weight, sample fraction abundance, sample fraction color, sample fraction particle size, and sample fraction composition. In addition, the data set provides location and descriptive information for each sample. Not all the descriptive fields contain information for a particular sample because it was not recorded by the submitter or because it was never entered into the database. No sample will contain analyses for all possible elements. The analytical methods used were selected by the sample submitter based on the goals of the individual project and will vary throughout the data set. The analytical methods, sample preparation protocols, and quality control protocols used for various sample media by the USGS are documented in the following publications: Acme Analytical Laboratories (Vancouver) Ltd., 852 East Hastings Street, Vancouver, BC V6A 1R6 Canada, 2011, Thirty-six elements are determined in solids by inductively coupled plasma-mass spectroscopy after aqua regia digestion: Acme analytic method Group 1VE1-MS, p. 29-31; accessed January 12, 2011 at http://acmelab.com/pdfs/Acme_Price_Brochure.pdf. Acme Analytical Laboratories (Vancouver) Ltd., 852 East Hastings Street, Vancouver, BC V6A 1R6 Canada, 2011, Fifty-three elements are determined in raw organic media by inductively coupled plasma-mass spectroscopy after aqua regia digestion: Acme analytic method Group 1VE2-MS, p. 29-31; accessed January 12, 2011 at http://acmelab.com/pdfs/Acme_Price_Brochure.pdf. Activation Laboratories Ltd., 1336 Sandhill Drive, Ancaster, ON L9G 4V5, Canada, 2011, Hydrocarbon compounds in solids are determined by proprietary method using gas chromatography and mass spectroscopy in a weak leach simulation: Actlabs analytic method accessed January 12, 2011 at http://www.Actlabs.com/page.aspx?menu=74&app=244&cat1=591&tp=2&lk=no. Activation Laboratories Ltd., 1336 Sandhill Drive, Ancaster, ON L9G 4V5, Canada, 2011, Fifty-eight constituents are determined in proprietary BioLeach leachates of solids by inductively coupled plasma-mass spectroscopy: Actlabs analytic method accessed January 12, 2011 at http://www.Actlabs.com/page.aspx?menu=74&app=244&cat1=599&tp=2&lk=no. Activation Laboratories Ltd., 1336 Sandhill Drive, Ancaster, ON L9G 4V5, Canada, 2011, Sixty elements are determined in water by high resolution inductively coupled plasma-mass spectroscopy: Actlabs analytic method accessed January 12, 2011 at http://www.Actlabs.com/page.aspx?menu=74&app=244&cat1=760&tp=2&lk=no. Activation Laboratories Ltd., 1336 Sandhill Drive, Ancaster, ON L9G 4V5, Canada, 2011, Sixty elements are determined in raw organic media by high resolution inductively coupled plasma-mass spectroscopy after 2-stage HNO3 and aqua regia digestion: Actlabs analytic method accessed January 12, 2011 at http://www.Actlabs.com/page.aspx?menu=74&app=244&cat1=592&tp=2&lk=no. ALS Minerals, 5420 Mainway Drive - Unit 5, Burlington, ON L7L 6A4 Canada, 2011, Sixty-three constituents are determined in cold hydroxylamine hydrochloride leachates of solids by inductively coupled plasma-mass spectroscopy: ALS-Minerals analytic method accessed January 12, 2011 at http://www.alsglobal.com/mineralDownloads.aspx. ALS Minerals, 5420 Mainway Drive - Unit 5, Burlington, ON L7L 6A4 Canada, 2011, Fifty-eight elements are determined in pH controlled ionic leachates of solids by inductively coupled plasma-mass spectroscopy: ALS-Minerals analytic method accessed January 12, 2011 at http://www.alsglobal.com/mineralDownloads.aspx. ALS Minerals, 5420 Mainway Drive - Unit 5, Burlington, ON L7L 6A4 Canada, 2011, Sixty-one constituents are determined in sodium pyrophosphate leachates of solids by inductively coupled plasma-mass spectroscopy: ALS-Minerals analytic method accessed January 12, 2011 at http://www.alsglobal.com/mineralDownloads.aspx. Arbogast, Belinda F., editor, 1996, Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, xi, 248 leaves; 28 cm, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. Aruscavage, Philip J., 1996, Choride by ion-selective electrode following KMnO4-H2SO4-HF dissolution, in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, p. 191-194, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. Briggs, Paul H., 2002, The determination of twenty-seven elements in aqueous samples by inductively coupled plasma-atomic emission spectrometry, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. F1-F11, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/F0203ICPAES_M.pdf. Briggs, Paul H., and Meier, Allen L., 1999, The determination of forty two elements in geological materials by inductively coupled plasma - mass spectrometry: U.S. Geological Survey open-file report 99-166, 15 leaves; 28 cm, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr99166. Briggs, Paul H., and Meier, Allen L., 2002, The determination of forty-two elements in geological materials by inductively coupled plasma-mass spectrometry, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. I1-I14, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/I20NAWQAPlus_M.pdf. Brown, Zoe Ann, and Curry, Kenneth J., 2002, Total carbon by combustion, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. R1-R4, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/R10TotalCarbon_M.pdf. Brown, Zoe Ann, O'Leary, Richard M., Hageman, Philip L., and Crock, James G., 2002, Mercury in water, geologic, and plant materials by continuous flow-cold vapor-atomic absorption spectrometry, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. M1-M9, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/M12HgCV_M.pdf. Brown, Zoe Ann, Papp, Clara S.E., Brandt, Elaine L., and Aruscavage, Philip J., 2002, Carbonate carbon by coulometric titration, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. S1-S6, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/S08CarbonateCarbon_S.pdf. Burt, Rebecca, editor, 2004, Saturated paste pH, analytic method 4C1a1a2, in Soil Survey Laboratory Methods Manual, Soil Survey Investigations Report, No. 42, Version 4.0, November 2004; accessed January 12, 2011 at ftp://ftp-fc.sc.egov.usda.gov/NSSC/Lab_Methods_Manual/SSIR42_2004_view.pdf. Burt, Rebecca, editor, 2004, Saturated paste conductivity, analytic method 8A1a, in Soil Survey Laboratory Methods Manual, Soil Survey Investigations Report, No. 42, Version 4.0, November 2004; accessed January 12, 2011 at ftp://ftp-fc.sc.egov.usda.gov/NSSC/Lab_Methods_Manual/SSIR42_2004_view.pdf. Crock, James G., 2005, Determination of total mercury in biological and geological samples a presentation for the 2004 Teledyne Leeman Labs "Seminar on Low-Level Mercury Data and Analyses": U.S. Geological Survey open-file report 2005-1030, , accessed January 12, 2011 at http://pubs.usgs.gov/of/2005/1030/. Curry, Kenneth J., 1996, Total carbon by combustion, in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, p. 173-176, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. d'Angelo, William M., and Ficklin, Walter H., 1996, Fluoride, chloride, nitrate, and sulfate in aqeous solution by chemically suppressed ion chromatography, in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, p. 149-153, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. Ficklin, Walter H., and Mosier, Elwin L., 1999, Field methods for sampling and analysis of environmental samples for unstable and selected stable constituents, in Plumlee, G.S., and Logsdon, M.J., The environmental geochemistry of mineral deposits: Society of Economic Geologists, Reviews in Economic Geology, v. 6A, p. 249-264. Hageman, Philip L., 2002, Mercury in water by flow injection-cold vapor-atomic fluorescence spectrometry, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. N1-N5, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/N13HagemanMercury_M.pdf. Hageman, Philip L., 2007, U.S. Geological Survey field leach test for assessing water reactivity and leaching potential of mine wastes, soils, and other geologic and environmental materials: Techniques of water resources investigations of the United States Geological Survey bk. 5, D-3, v, 14 p.: ill. (some col.); 28 cm, accessed January 12, 2011 at http://pubs.usgs.gov/tm/2007/05D03/. Hageman, Philip L., and Briggs, Paul H., 2000, A simple field leach test for rapid screening and qualitative characterization of mine waste dump material on abandoned mine lands: U.S. Geological Survey open-file report 00-15, 13 leaves: ill.; 28 cm, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr0015. Hageman, Philip L., and Welsch, Eric P., 1996, Arsenic, antimony, and selenium by flow injection or continuous flow-hydride generation-atomic absorption spectrophometry, in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, p. 24-30, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. Hageman, Philip L., Brown, Zoe Ann, and Welsch, Eric P., 2002, Arsenic and selenium by flow injection or continuous flow-hydride generation-atomic absorption spectrophotometry, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. L1-L7, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/L06AS24Se_M.pdf. Lamothe, Paul J., Meier, Allen L., and Wilson, Stephen A., 1999, The determination of forty four elements in aqueous samples by inductively coupled plasma-mass spectrometry: U.S. Geological Survey open-file report 99-151, 14 leaves; 28 cm, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr99151. Lamothe, Paul J., Meier, Allen L., and Wilson, Stephen A., 2002, The determination of forty elements in aqueous samples by inductively coupled plasma-mass spectrometry, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. H1-H11, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/H21&23OFR99-151_M.pdf. O'Leary, Richard M., Hageman, Philip L., and Crock, James G., 1996, Mercury in water, geologic, and plant materials by continuous flow-cold vapor-atomic absorption spectrometry, in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, p. 42-50, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. Papp, Clara S.E., Brandt, Elaine L., and Aruscavage, Philip J., 1996, Carbonate carbon by coulometric titration, in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Survey: U.S. Geological Survey open-file report 96-525, p. 60-66, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr96525. Peacock, Thomas R., 1992, The preparation of plant material and determination of weight percent ash: U.S. Geological Survey open-file report 92-345, 9 leaves: ill.; 28 cm, accessed January 12, 2011 at http://pubs.er.usgs.gov/usgspubs/ofr/ofr92345. Peacock, Thomas R., 1996, The preparation of plant material and determination of weight percent ash; in Analytical methods manual for the Mineral Resource Surveys Program, U.S. Geological Taggart, Joseph E., editor, 2002, Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Sur: U.S. Geological Survey open-file report 02-223, , accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, 42 Element ICP-AES-MS multi-acid, total: SGS Analytical Contract Laboratory Method 19, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M19. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, 55 Element ICP-AES-MS sodium peroxide sinter: SGS Analytical Contract Laboratory Method 22, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#m22. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Arsenic and Antimony: SGS Analytical Contract Laboratory Methods 9 & 11, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M9. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Carbonate Carbon: SGS Analytical Contract Laboratory Method 3-B, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M3b. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Chloride (Cl): SGS Analytical Contract Laboratory Method 18, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M18. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Fluoride: SGS Analytical Contract Laboratory Method 16, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M16. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Gold: SGS Analytical Contract Laboratory Method 7, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M7. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Mercury: SGS Analytical Contract Laboratory Method 8, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M8. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Selenium (Se): SGS Analytical Contract Laboratory Method 10, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M10. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Total Carbon: SGS Analytical Contract Laboratory Method 3-A, , accessed January 12, 2011 at http://minerals.cr.usgs.gov/intranet/chem/labmethods.html#M3a. SGS Minerals Services, 1885 Leslie Street, Toronto, ON M3B 2M3, Canada, 2011, Forty-six elements are determined in a proprietary mobile metal ion leachates of solids by inductively coupled plasma-mass spectroscopy: SGS analytical method accessed January 12, 2011 at http://www.geochem.sgs.com/mmi.htm. Skyline Assayers & Laboratories, 1775 W Sahuaro Drive, P.O. Box 85670, Tucson, AZ 85754-5670, 2011, Sixty-nine constituents are determined in a proprietary enhanced enzyme leachates of solids by inductively coupled plasma-mass spectroscopy: Skyline analytic method SLE-1, p. 8, accessed January 12, 2011 at http://www.skylinelab.com/docs/Skyline_Labs-2010_Schedule_of_Services_and_Fees-20091229-EN-WEB.pdf. Skyline Assayers & Laboratories, 1775 W Sahuaro Drive, P.O. Box 85670, Tucson, AZ 85754-5670, 2011, Sixty-seven constituents in proprietary TerraSol leachates of solids by inductively coupled plasma-mass spectroscopy: Skyline analytic method SLE-3, p. 8, accessed January 12, 2011 at http://www.skylinelab.com/docs/Skyline_Labs-2010_Schedule_of_Services_and_Fees-20091229-EN-WEB.pdf. Taylor, Cliff D., Theodorakos, Peter M., and Peacock, Thomas R., 2002, Sample Preparation, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. A2-1 - A3-4, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/A1RxSampPrep_M.pdf. Theodorakos, Peter M., 2002, Colorometric determination of ferrous iron, Fe(II), in natural water, wastewater, and seawater, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. W1-W2, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/W11Fe(II)Hach_M.pdf. Theodorakos, Peter M., 2002, Conductivity measured using a self contained Digital Meter, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. D1-D2, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/D28Cond_M.pdf. Theodorakos, Peter M., 2002, Determination of Total Alkalinity using a preset endpoint (pH 4.5) Autotitration System, in Analytical methods for chemical analysis of geologic and other materials, U.S. Geological Survey: U.S. Geological Survey open-file report 02-223, p. E1-E3, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/E04PresetEndpoint_M.pdf. Theodorakos, Peter M., 2002, Fluoride, chloride, nitrate, and sulfate in aqueous solution utilizing AutoSuppression chemically suppressed ion chromatography: U.S. Geological Survey open-file report 02-223, p. V1-V7, accessed January 12, 2011 at http://pubs.usgs.gov/of/2002/ofr-02-0223/OFR-02-0223.pdf. US EPA, Dissolved organic carbon in water is determined by a Shimadzu 5000A carbon analyzer using an infrared detector: US EPA SW-846 Method 9060A: Total Organic Carbon, 08-04-2008, accessed January 12, 2011 at http://www.epa.gov/wastes/hazard/testmethods/sw846/pdfs/9060a.pdf. Positional_Accuracy: Horizontal_Positional_Accuracy: Horizontal_Positional_Accuracy_Report: 1) Coordinates: submitted samples were located using GPS receivers. The locations determined by GPS should be accurate to the nearest latitude or longitude second. 2) Datum and Earth Ellipsoid or Spheroid: the datum and spheroid are WGS84 and are identified in two fields that accompany the locational coordinates. Lineage: Process_Step: Process_Description: The data were generated by the analytical laboratories of the USGS and USGS contractors during 2007-2011. Data were transmitted to a data-staging database during 2008-2011 where data were mapped to uniform field definitions. Process_Date: 2008 through 2011 Process_Contact: Contact_Information: Contact_Person_Primary: Contact_Person: Matthew Granitto Contact_Organization: U.S. Geological Survey Contact_Address: Address_Type: mailing and physical address Address: Box 25046, Denver Federal Center, MS 973 City: Denver State_or_Province: Colorado Postal_Code: 80225 Country: United States of America Contact_Voice_Telephone: 1-303-236-1412 Contact_Facsimile_Telephone: 1-303-236-3200 Contact_Electronic_Mail_Address: granitto@usgs.gov Spatial_Data_Organization_Information: Direct_Spatial_Reference_Method: point Point_and_Vector_Object_Information: SDTS_Terms_Description: SDTS_Point_and_Vector_Object_Type: point Point_and_Vector_Object_Count: 446 Spatial_Reference_Information: Horizontal_Coordinate_System_Definition: Geographic: Latitude_Resolution: 0.00001 Longitude_Resolution: 0.00001 Geographic_Coordinate_Units: decimal degrees Entity_and_Attribute_Information: Overview_Description: Entity_and_Attribute_Overview: The AnalyticMethod table is a table of analytic methods used to obtain chemical and physical data for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >AnalyticMethodShortName Text 15 Short name of analytic method. >AnalyticMethodDesc Text 200 Full description of analytic method. >AnalyzedMedia Text 10 Media analyzed by specific method. >LabShortName Text 15 Short name of laboratory that performed analysis. >AnalMethPub_ID Text 50 Unique ID for analytic method publication; usually USGS Library call number for reference of analytic method. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The AnalyticMethodBiblio table is a table of references for analytic methods used to obtain chemical data utilized in the Pebble project >FieldName FieldType FieldSize-Format FieldDescript > >AnalMethPub_ID Text 50 Unique ID for analytic method publication; usually USGS Library call number for reference of analytic method. >AnalMethPub_Author Text 255 Analytic method publication author(s). >AnalMethPub_Year Number Long Integer Year of analytic method publication. >AnalMethPub_Title Text 255 Title of analytic method publication. >AnalMethPub_SeriesTitle Text 150 Series title of analytic method publication. >AnalMethPub_Pages Text 100 Pages in analytic method publication. >AnalMethPub_URL Hyperlink URL of analytic method publication, if available. >AnalMethPub_Notes Memo 65,535 Notes regarding analytic method publication. >AnalMethPub_Citation Memo 65,535 Full citation of analytic method publication. >LabShortName Text 15 Short name of laboratory that performed analysis. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table FieldNameDictionary is a table of field name descriptions for all tables in the Pebble project database. >FieldName FieldType FieldSize-Format FieldDescript > >FieldName Text 50 Field name populated in one or more tables in Pebble database. >FieldType Text 15 Data type of field. >FieldSize-Format Text 15 Maximum number of characters, or format of data, that can be entered in field. >FieldDescript Text 255 Description of field. >FieldTables Memo 65,535 Table(s) containing field. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table FieldSite is a table of spatial and descriptive attributes for field sites in the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >FieldSiteNumber_Coincident Text 50 Site IDs for sites co-located at this spot; from different sample collectors or re-sample at different time period. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >FieldLatitude_DMS Text 20 Latitude from field, in degrees, minutes and seconds. >FieldLongitude_DMS Text 20 Longitude from field, in degrees, minutes and seconds. >FieldCoordDatum Text 10 Datum used to determine Lat/Long from field. >FieldCoordSpheroid Text 10 Spheroid used to determine Lat/Long from field. >FieldCoordEPE Number Double Estimated Position Error (EPE), in feet; measure of uncertainty of a position measurement given by higher quality GPS units. >FieldCoordNo_Satellites Number Long Integer Number of satellites for the GPS location fix. >FieldCoordMethod Text 25 Method in which the latitude/longitude were determined: GPS, digitized from topo, other (state method). >FieldElevation Number Double Elevation, determined in the field for site (above mean sea level), in feet. >ElevationMethod Text 25 Method used to determine elevation: GPS, altimeter, topo map. >Quad_63K_Name Text 25 Name of 1:63,360 scale quadrangle in which sample site is located. >State_Province Text 20 State or province, 2-letter postal state code if applicable. >SiteDesc Memo 65,535 Descriptive information for site. >SiteLocationInfo Text 150 Site-specific location information. >SiteComment Memo 65,535 Any other site-related information that was not captured elsewhere. >AirTemperature Number Double Air temperature at site, in degrees Celsius. >RelativeHumidity Number Double Relative humidity at site, in percent. >Weather Text 100 Weather at time site was visited/samples were collected. >SiteBedrockGeolDesc Memo 65,535 Brief description of the bedrock geology of the site, regardless of the type of sample collected there. >MiningDistrict Text 25 Name of mining district; if site is not in an organized mining district then state "none;" if unknown, then state "unknown". >DepositName Text 50 Name of mine, prospect or deposit; if more than one name, list them all separated by commas. >DepositTypeDesc Text 50 Description of deposit type, such as "volcanogenic massive sulfide" or "porphyry copper." >ContaminationAtSite Text 150 Presence and type of any man-made potential contaminants visible at site or just upstream. >FieldSitePubl_Code Text 25 U.S. Geological Survey publication code. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_Alk is a table of alkalinity data for unacidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Alk-CaCO3_mg/L_Titr Number Double Alkalinity, as calcium carbonate, in milligrams per liter, by acid titration. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_Anions is a table of anion data for unacidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Cl_mg/L_IC Number Double Chloride, in milligrams per liter, determined by ion chromatography. >F_mg/L_IC Number Double Fluoride, in milligrams per liter, determined by ion chromatography. >NO3_mg/L_IC Number Double Nitrate, in milligrams per liter, determined by ion chromatography. >SO4_mg/L_IC Number Double Sulfate, in milligrams per liter, determined by ion chromatography. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_DOC is a table of dissolved organic carbon data for acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >C-Org_mg/L_Comb Number Double Organic carbon, dissolved, in milligrams per liter, by carbon analyzer using an infrared detector. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_Fe is a table of ferrous iron data for acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Fe(II)_ug/L_CM Number Double Ferrous iron, in micrograms per liter, by visible spectrometry (ferrozine) or spectrophotometry, in the lab. >Fe(III)_ug/L_Comp Number Double Ferric iron, in micrograms per liter, by the calculated difference between total iron and ferrous iron. >Fe_ug/L_CM Number Double Iron, in micrograms per liter, by visible spectrometry (ferrozine) or spectrophotometry, in the lab. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_FldChem is a table of field chemistry data for unacidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Acid_mg/L_Fld Number Double Acidity, in milligrams per liter, in the field with a field titration kit, performed on most samples with pH < 7. >Alk-CaCO3_mg/L_Fld Number Double Alkalinity, as calcium carbonate, in milligrams per liter, in the field by acid titration. >Color-H2O_Fld Text 50 Color of water, in the field. >Filters_Fld Number Double Number of filters used, in the field >O2_mg/L_Fld Number Double Oxygen, dissolved, in water, in milligrams per liter, in the field using an electrode. >Odor_Fld Text 50 Water odor, in the field. >pH_SI_Fld Number Double pH of water, in standard units, by digital pH meter in the field. >Qinstant-Calc_Lpm_Fld Number Double Stream discharge, instantaneous, in liters per minute, calculated in the field. >Qinstant-Est_cfs_Fld Number Double Stream discharge, instantaneous, in cubic feet per second, estimated in the field. >Qinstant-Est_Lpm_Fld Number Double Stream discharge, instantaneous, in liters per minute, estimated in the field. >SpCon_uS/cm_Fld Number Double Specific conductivity of water, in micro-Siemens per centimeter, in the field. >Temp_degC_Fld Number Double Temperature of water, in degrees Celsius, in the field. >Turbid_FTU_Fld Number Double Turbidity, in formazine turbidity units, in the field with a turbidity meter, using an infrared LED light source. >Turbid_NTU_Fld Number Double Turbidity, in nephelometric turbidity units, in the field with a turbidity meter, using an infrared LED light source. >Turbid-Qual_Fld Text 50 Turbidity, as qualitative comment, in the field. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_Hg is a table of mercury data for acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Hg_ug/L_AA Number Double Mercury, in micrograms per liter, by cold vapor atomic absorption spectrophotometry. >Hg_ug/L_AF Number Double Mercury, in micrograms per liter, by cold vapor atomic fluorescence spectroscopy. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_ICPAES-FA is a table of inductively coupled plasma-atomic emission spectroscopy chemical data for filtered, acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ug/L_AES Number Double Silver, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Al_ug/L_AES Number Double Aluminum, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >As_ug/L_AES Number Double Arsenic, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >B_ug/L_AES Number Double Boron, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ba_ug/L_AES Number Double Barium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Be_ug/L_AES Number Double Beryllium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ca_mg/L_AES Number Double Calcium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Cd_ug/L_AES Number Double Cadmium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Co_ug/L_AES Number Double Cobalt, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Cr_ug/L_AES Number Double Chromium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Cu_ug/L_AES Number Double Copper, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Fe_ug/L_AES Number Double Iron, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >K_mg/L_AES Number Double Potassium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Li_ug/L_AES Number Double Lithium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Mg_mg/L_AES Number Double Magnesium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Mn_ug/L_AES Number Double Manganese, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Mo_ug/L_AES Number Double Molybdenum, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Na_mg/L_AES Number Double Sodium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ni_ug/L_AES Number Double Nickel, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >P_mg/L_AES Number Double Phosphorus, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Pb_ug/L_AES Number Double Lead, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Sb_ug/L_AES Number Double Antimony, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Se_ug/L_AES Number Double Selenium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >SiO2_mg/L_AES Number Double Silicon, as silicon dioxide, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >SO4_mg/L_AES Number Double Sulfate, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Sr_ug/L_AES Number Double Strontium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ti_ug/L_AES Number Double Titanium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >V_ug/L_AES Number Double Vanadium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Zn_ug/L_AES Number Double Zinc, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_ICPAES-RA is a table of inductively coupled plasma-atomic emission spectroscopy chemical data for unfiltered, acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ug/L_AES Number Double Silver, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Al_ug/L_AES Number Double Aluminum, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >As_ug/L_AES Number Double Arsenic, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >B_ug/L_AES Number Double Boron, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ba_ug/L_AES Number Double Barium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Be_ug/L_AES Number Double Beryllium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ca_mg/L_AES Number Double Calcium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Cd_ug/L_AES Number Double Cadmium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Co_ug/L_AES Number Double Cobalt, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Cr_ug/L_AES Number Double Chromium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Cu_ug/L_AES Number Double Copper, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Fe_ug/L_AES Number Double Iron, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >K_mg/L_AES Number Double Potassium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Li_ug/L_AES Number Double Lithium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Mg_mg/L_AES Number Double Magnesium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Mn_ug/L_AES Number Double Manganese, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Mo_ug/L_AES Number Double Molybdenum, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Na_mg/L_AES Number Double Sodium, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ni_ug/L_AES Number Double Nickel, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >P_mg/L_AES Number Double Phosphorus, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Pb_ug/L_AES Number Double Lead, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Sb_ug/L_AES Number Double Antimony, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Se_ug/L_AES Number Double Selenium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >SiO2_mg/L_AES Number Double Silicon, as silicon dioxide, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >SO4_mg/L_AES Number Double Sulfate, in milligrams per liter, by inductively coupled plasma-atomic emission spectroscopy. >Sr_ug/L_AES Number Double Strontium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Ti_ug/L_AES Number Double Titanium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >V_ug/L_AES Number Double Vanadium, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. >Zn_ug/L_AES Number Double Zinc, in micrograms per liter, by inductively coupled plasma-atomic emission spectroscopy. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_ICPMS-FA is a table of inductively coupled plasma-mass spectroscopy chemical data for filtered, acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ug/L_MS Number Double Silver, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Al_ug/L_MS Number Double Aluminum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >As_ug/L_MS Number Double Arsenic, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ba_ug/L_MS Number Double Barium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Be_ug/L_MS Number Double Beryllium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Bi_ug/L_MS Number Double Bismuth, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ca_mg/L_MS Number Double Calcium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Cd_ug/L_MS Number Double Cadmium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ce_ug/L_MS Number Double Cerium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Co_ug/L_MS Number Double Cobalt, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Cr_ug/L_MS Number Double Chromium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Cs_ug/L_MS Number Double Cesium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Cu_ug/L_MS Number Double Copper, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Dy_ug/L_MS Number Double Dysprosium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Er_ug/L_MS Number Double Erbium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Eu_ug/L_MS Number Double Europium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Fe_ug/L_MS Number Double Iron, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ga_ug/L_MS Number Double Gallium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Gd_ug/L_MS Number Double Gadolinium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ge_ug/L_MS Number Double Germanium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ho_ug/L_MS Number Double Holmium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >K_mg/L_MS Number Double Potassium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >La_ug/L_MS Number Double Lanthanum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Li_ug/L_MS Number Double Lithium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Lu_ug/L_MS Number Double Lutetium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Mg_mg/L_MS Number Double Magnesium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Mn_ug/L_MS Number Double Manganese, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Mo_ug/L_MS Number Double Molybdenum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Na_mg/L_MS Number Double Sodium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Nb_ug/L_MS Number Double Niobium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Nd_ug/L_MS Number Double Neodymium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ni_ug/L_MS Number Double Nickel, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >P_mg/L_MS Number Double Phosphorus, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Pb_ug/L_MS Number Double Lead, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Pr_ug/L_MS Number Double Praseodymium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Rb_ug/L_MS Number Double Rubidium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Sb_ug/L_MS Number Double Antimony, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Sc_ug/L_MS Number Double Scandium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Se_ug/L_MS Number Double Selenium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >SiO2_mg/L_MS Number Double Silicon, as silicon dioxide, as silicon dioxide, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Sm_ug/L_MS Number Double Samarium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >SO4_mg/L_MS Number Double Sulfate, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Sr_ug/L_MS Number Double Strontium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ta_ug/L_MS Number Double Tantalum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Tb_ug/L_MS Number Double Terbium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Th_ug/L_MS Number Double Thorium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ti_ug/L_MS Number Double Titanium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Tl_ug/L_MS Number Double Thallium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Tm_ug/L_MS Number Double Thulium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >U_ug/L_MS Number Double Uranium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >V_ug/L_MS Number Double Vanadium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >W_ug/L_MS Number Double Tungsten, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Y_ug/L_MS Number Double Yttrium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Yb_ug/L_MS Number Double Ytterbium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Zn_ug/L_MS Number Double Zinc, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Zr_ug/L_MS Number Double Zirconium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_ICPMS-HR-FA is a table of high resolution inductively coupled plasma-mass spectroscopy chemical data for filtered, acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ug/L_MS-HR Number Double Silver, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Al_ug/L_MS-HR Number Double Aluminum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >As_ug/L_MS-HR Number Double Arsenic, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Au_ug/L_MS-HR Number Double Gold, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >B_ug/L_MS-HR Number Double Boron, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ba_ug/L_MS-HR Number Double Barium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Be_ug/L_MS-HR Number Double Beryllium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Bi_ug/L_MS-HR Number Double Bismuth, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ca_mg/L_MS-HR Number Double Calcium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cd_ug/L_MS-HR Number Double Cadmium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ce_ug/L_MS-HR Number Double Cerium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Co_ug/L_MS-HR Number Double Cobalt, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cr_ug/L_MS-HR Number Double Chromium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cs_ug/L_MS-HR Number Double Cesium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cu_ug/L_MS-HR Number Double Copper, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Dy_ug/L_MS-HR Number Double Dysprosium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Er_ug/L_MS-HR Number Double Erbium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Eu_ug/L_MS-HR Number Double Europium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Fe_ug/L_MS-HR Number Double Iron, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ga_ug/L_MS-HR Number Double Gallium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Gd_ug/L_MS-HR Number Double Gadolinium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ge_ug/L_MS-HR Number Double Germanium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Hf_ug/L_MS-HR Number Double Hafnium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Hg_ug/L_MS-HR Number Double Mercury, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ho_ug/L_MS-HR Number Double Holmium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >In_ug/L_MS-HR Number Double Indium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >K_mg/L_MS-HR Number Double Potassium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >La_ug/L_MS-HR Number Double Lanthanum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Li_ug/L_MS-HR Number Double Lithium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Lu_ug/L_MS-HR Number Double Lutetium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Mg_mg/L_MS-HR Number Double Magnesium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >Mn_ug/L_MS-HR Number Double Manganese, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Mo_ug/L_MS-HR Number Double Molybdenum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Na_mg/L_MS-HR Number Double Sodium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >Nb_ug/L_MS-HR Number Double Niobium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Nd_ug/L_MS-HR Number Double Neodymium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ni_ug/L_MS-HR Number Double Nickel, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pb_ug/L_MS-HR Number Double Lead, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pd_ug/L_MS-HR Number Double Palladium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pr_ug/L_MS-HR Number Double Praseodymium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pt_ug/L_MS-HR Number Double Platinum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Rb_ug/L_MS-HR Number Double Rubidium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Re_ug/L_MS-HR Number Double Rhenium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ru_ug/L_MS-HR Number Double Ruthenium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sb_ug/L_MS-HR Number Double Antimony, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sc_ug/L_MS-HR Number Double Scandium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Se_ug/L_MS-HR Number Double Selenium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sm_ug/L_MS-HR Number Double Samarium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sn_ug/L_MS-HR Number Double Tin, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sr_ug/L_MS-HR Number Double Strontium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ta_ug/L_MS-HR Number Double Tantalum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Tb_ug/L_MS-HR Number Double Terbium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Te_ug/L_MS-HR Number Double Tellurium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Th_ug/L_MS-HR Number Double Thorium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ti_ug/L_MS-HR Number Double Titanium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Tl_ug/L_MS-HR Number Double Thallium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Tm_ug/L_MS-HR Number Double Thulium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >U_ug/L_MS-HR Number Double Uranium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >V_ug/L_MS-HR Number Double Vanadium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >W_ug/L_MS-HR Number Double Tungsten, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Y_ug/L_MS-HR Number Double Yttrium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Yb_ug/L_MS-HR Number Double Ytterbium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Zn_ug/L_MS-HR Number Double Zinc, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Zr_ug/L_MS-HR Number Double Zirconium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_ICPMS-HR-RA is a table of high resolution inductively coupled plasma-mass spectroscopy chemical data for unfiltered, acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ug/L_MS-HR Number Double Silver, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Al_ug/L_MS-HR Number Double Aluminum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >As_ug/L_MS-HR Number Double Arsenic, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Au_ug/L_MS-HR Number Double Gold, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >B_ug/L_MS-HR Number Double Boron, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ba_ug/L_MS-HR Number Double Barium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Be_ug/L_MS-HR Number Double Beryllium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Bi_ug/L_MS-HR Number Double Bismuth, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ca_mg/L_MS-HR Number Double Calcium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cd_ug/L_MS-HR Number Double Cadmium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ce_ug/L_MS-HR Number Double Cerium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Co_ug/L_MS-HR Number Double Cobalt, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cr_ug/L_MS-HR Number Double Chromium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cs_ug/L_MS-HR Number Double Cesium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Cu_ug/L_MS-HR Number Double Copper, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Dy_ug/L_MS-HR Number Double Dysprosium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Er_ug/L_MS-HR Number Double Erbium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Eu_ug/L_MS-HR Number Double Europium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Fe_ug/L_MS-HR Number Double Iron, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ga_ug/L_MS-HR Number Double Gallium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Gd_ug/L_MS-HR Number Double Gadolinium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ge_ug/L_MS-HR Number Double Germanium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Hf_ug/L_MS-HR Number Double Hafnium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Hg_ug/L_MS-HR Number Double Mercury, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ho_ug/L_MS-HR Number Double Holmium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >In_ug/L_MS-HR Number Double Indium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >K_mg/L_MS-HR Number Double Potassium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >La_ug/L_MS-HR Number Double Lanthanum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Li_ug/L_MS-HR Number Double Lithium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Lu_ug/L_MS-HR Number Double Lutetium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Mg_mg/L_MS-HR Number Double Magnesium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >Mn_ug/L_MS-HR Number Double Manganese, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Mo_ug/L_MS-HR Number Double Molybdenum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Na_mg/L_MS-HR Number Double Sodium, in milligrams per liter, by high resolution inductively coupled plasma-mass spectrometry. >Nb_ug/L_MS-HR Number Double Niobium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Nd_ug/L_MS-HR Number Double Neodymium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ni_ug/L_MS-HR Number Double Nickel, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pb_ug/L_MS-HR Number Double Lead, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pd_ug/L_MS-HR Number Double Palladium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pr_ug/L_MS-HR Number Double Praseodymium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Pt_ug/L_MS-HR Number Double Platinum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Rb_ug/L_MS-HR Number Double Rubidium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Re_ug/L_MS-HR Number Double Rhenium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ru_ug/L_MS-HR Number Double Ruthenium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sb_ug/L_MS-HR Number Double Antimony, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sc_ug/L_MS-HR Number Double Scandium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Se_ug/L_MS-HR Number Double Selenium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sm_ug/L_MS-HR Number Double Samarium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sn_ug/L_MS-HR Number Double Tin, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Sr_ug/L_MS-HR Number Double Strontium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ta_ug/L_MS-HR Number Double Tantalum, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Tb_ug/L_MS-HR Number Double Terbium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Te_ug/L_MS-HR Number Double Tellurium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Th_ug/L_MS-HR Number Double Thorium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Ti_ug/L_MS-HR Number Double Titanium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Tl_ug/L_MS-HR Number Double Thallium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Tm_ug/L_MS-HR Number Double Thulium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >U_ug/L_MS-HR Number Double Uranium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >V_ug/L_MS-HR Number Double Vanadium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >W_ug/L_MS-HR Number Double Tungsten, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Y_ug/L_MS-HR Number Double Yttrium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Yb_ug/L_MS-HR Number Double Ytterbium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Zn_ug/L_MS-HR Number Double Zinc, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. >Zr_ug/L_MS-HR Number Double Zirconium, in micrograms per liter, by high resolution inductively coupled plasma-mass spectrometry. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table H2O_ICPMS-RA is a table of inductively coupled plasma-mass spectroscopy chemical data for unfiltered, acidified water samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ug/L_MS Number Double Silver, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Al_ug/L_MS Number Double Aluminum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >As_ug/L_MS Number Double Arsenic, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ba_ug/L_MS Number Double Barium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Be_ug/L_MS Number Double Beryllium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Bi_ug/L_MS Number Double Bismuth, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ca_mg/L_MS Number Double Calcium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Cd_ug/L_MS Number Double Cadmium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ce_ug/L_MS Number Double Cerium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Co_ug/L_MS Number Double Cobalt, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Cr_ug/L_MS Number Double Chromium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Cs_ug/L_MS Number Double Cesium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Cu_ug/L_MS Number Double Copper, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Dy_ug/L_MS Number Double Dysprosium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Er_ug/L_MS Number Double Erbium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Eu_ug/L_MS Number Double Europium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Fe_ug/L_MS Number Double Iron, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ga_ug/L_MS Number Double Gallium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Gd_ug/L_MS Number Double Gadolinium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ge_ug/L_MS Number Double Germanium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ho_ug/L_MS Number Double Holmium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >K_mg/L_MS Number Double Potassium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >La_ug/L_MS Number Double Lanthanum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Li_ug/L_MS Number Double Lithium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Lu_ug/L_MS Number Double Lutetium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Mg_mg/L_MS Number Double Magnesium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Mn_ug/L_MS Number Double Manganese, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Mo_ug/L_MS Number Double Molybdenum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Na_mg/L_MS Number Double Sodium, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Nb_ug/L_MS Number Double Niobium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Nd_ug/L_MS Number Double Neodymium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ni_ug/L_MS Number Double Nickel, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >P_mg/L_MS Number Double Phosphorus, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Pb_ug/L_MS Number Double Lead, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Pr_ug/L_MS Number Double Praseodymium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Rb_ug/L_MS Number Double Rubidium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Sb_ug/L_MS Number Double Antimony, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Sc_ug/L_MS Number Double Scandium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Se_ug/L_MS Number Double Selenium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >SiO2_mg/L_MS Number Double Silicon, as silicon dioxide, as silicon dioxide, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Sm_ug/L_MS Number Double Samarium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >SO4_mg/L_MS Number Double Sulfate, in milligrams per liter, by inductively coupled plasma-mass spectrometry. >Sr_ug/L_MS Number Double Strontium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ta_ug/L_MS Number Double Tantalum, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Tb_ug/L_MS Number Double Terbium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Th_ug/L_MS Number Double Thorium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Ti_ug/L_MS Number Double Titanium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Tl_ug/L_MS Number Double Thallium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Tm_ug/L_MS Number Double Thulium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >U_ug/L_MS Number Double Uranium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >V_ug/L_MS Number Double Vanadium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >W_ug/L_MS Number Double Tungsten, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Y_ug/L_MS Number Double Yttrium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Yb_ug/L_MS Number Double Ytterbium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Zn_ug/L_MS Number Double Zinc, in micrograms per liter, by inductively coupled plasma-mass spectrometry. >Zr_ug/L_MS Number Double Zirconium, in micrograms per liter, by inductively coupled plasma-mass spectrometry. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table IndicatorMineralogy is a table of indicator mineralogy data for concentrates of till and stream sediment samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >Au-vg_thick_calc Number Double Thickness of visible gold grains, calculated, in microns. >Au-vg_thick_msrd Number Double Thickness of visible gold grains, measured, in microns. >Au-vg_width Number Double Width of visible gold grains, measured, in microns. >Au-vg_length Number Double Length of visible gold grains, measured, in microns. >Au-vg_reshaped Number Double Number of visible reshaped gold grains. >Au-vg_modified Number Double Number of visible modified gold grains. >Au-vg_pristine Number Double Number of visible pristine gold grains. >Au-vg_total Number Double Number of visible gold grains, reshaped + modified + pristine; total. >Au-vg_reshaped_ppb Number Double Gold in visible reshaped gold grains, calculated, in parts per billion. >Au-vg_modified_ppb Number Double Gold in visible modified gold grains, calculated, in parts per billion. >Au-vg_pristine_ppb Number Double Gold in visible pristine gold grains, calculated, in parts per billion. >Au-vg_total_ppb Number Double Gold in total visible gold grains, reshaped + modified + pristine; calculated, in parts per billion. >VisGrainComment Memo 65,535 Comment regarding mineralogy observed in visible grain sample. >PC-wt_Total Number Double Weight of field pan concentrate, total, in grams. >PC-wt_Total_>vcsd Number Double Weight of field pan concentrate, greater than 2.0 mm sieve grain size (greater than very coarse sand), in grams. >PC-wt_Total_PC-wt_Total_f-vcsd Number Double Weight of field pan concentrate, 0.125 to 2.00 mm sieve grain size (fine to very coarse sand), total, in grams. >PC-wt_Light Number Double Weight of field pan concentrate, 0.125 to 2.00 mm sieve grain size, specific gravity less than 2.8 after heavy liquid separation, "lights", in grams. >PC-wt_HMC-mag Number Double Weight of field pan concentrate, 0.125 to 2.00 mm sieve grain size, specific gravity less than 2.8 after heavy liquid separation, magnetic heavy mineral concentrate, in grams. >PC-wt_NFM-mod_f-vcsd Number Double Weight of field pan concentrate, 0.125 to 2.00 mm sieve grain size (fine to very coarse sand), SG 2.8 to 3.2 after heavy liquid separation, nonferromagnetic fraction, total, in grams. >PC-wt_NFM-mod_PC-wt_NFM-mod_fsd Number Double Weight of field pan concentrate, 0.125 to 0.25 mm sieve grain size (fine sand), SG 2.8 to 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-mod_msd Number Double Weight of field pan concentrate, 0.25 to 0.5 mm sieve grain size (medium sand), SG 2.8 to 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-mod_csd Number Double Weight of field pan concentrate, 0.5 to 1 mm sieve grain size (coarse sand), SG 2.8 to 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-mod_vcsd Number Double Weight of field pan concentrate, 1 to 2 mm sieve grain size, (greater than very coarse sand), SG 2.8 to 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-hvy_f-vcsd Number Double Weight of field pan concentrate, 0.125 to 2.00 mm sieve grain size (fine to very coarse sand), SG greater than 3.2 after heavy liquid separation, nonferromagnetic fraction, total, in grams. >PC-wt_NFM-hvy_PC-wt_NFM-hvy_msd Number Double Weight of field pan concentrate, 0.25 to 0.5 mm sieve grain size (medium sand), SG greater than 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-hvy_csd Number Double Weight of field pan concentrate, 0.5 to 1 mm sieve grain size (coarse sand), SG greater than 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-hvy_fsd Number Double Weight of field pan concentrate, 0.125 to 0.25 mm sieve grain size (fine sand), SG greater than 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >PC-wt_NFM-hvy_vcsd Number Double Weight of field pan concentrate, 1 to 2 mm sieve grain size, (greater than very coarse sand), SG greater than 3.2 after heavy liquid separation, nonferromagnetic fraction, in grams. >Spl-wt_bulk Number Double Sample weight, bulk received, in kilograms. >Spl-wt_table-split Number Double Sample weight, table split, in kilograms. >Spl-wt_>vcsd Number Double Sample weight, greater than 2 mm sieve particle size clasts (greater than very coarse sand), in kilograms. >Spl-wt_table-feed Number Double Sample weight, table feed, in kilograms. >Clast_size Text 10 Largest clasts present, greater than 2.0 mm sieve particle size. >Clast_V/S Text 10 Volcanics and/or sediment components of clasts, greater than 2.0 mm sieve particle size. >Clast_GR Text 10 Granitic components of clasts, greater than 2.0 mm sieve particle size. >Clast_LS Text 10 Limestone and/or carbonate components of clasts, greater than 2.0 mm sieve particle size. >Clast_OT Text 10 Other lithology components of clasts, greater than 2.0 mm sieve particle size. >Matrix_S/U Text 10 Sorting of matrix, less than 2.0 mm sieve particle size. >Matrix_SD_distrib Text 35 Sand fraction in matrix, less than 2.0 mm sieve particle size. >Matrix_ST Text 35 Silt fraction in matrix, less than 2.0 mm sieve particle size. >Matrix_CY_distrib Text 35 Clay fraction in matrix, less than 2.0 mm sieve particle size. >Matrix_org Text 35 Organic fraction in matrix, less than 2.0 mm sieve particle size. >Matrix_SD_color Text 25 Color of sand in matrix, less than 2.0 mm sieve particle size. >Matrix_CY_color Text 25 Color of clay in matrix, less than 2.0 mm sieve particle size. >SedClass Text 25 Sediment class name. >CPY Text 25 Chalcopyrite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >PCIM_Sulf/As Text 50 Prime porphyry copper indicator minerals (or metamorphosed/magmatic massive sulfide indicator minerals), sulfide-arsenide and related minerals, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >PY Text 25 Pyrite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >GTH Text 25 Goethite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility less than 1 amp. >ADR Text 25 Andradite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility less than 1 amp. >PCIM_Mg/Mn/Al/Cr/Ti Text 100 Prime porphyry copper indicator minerals, magnesium/manganese/aluminum/chromium/titanium minerals, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >MnOx Text 25 Manganese oxide, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >RUT Text 25 Red rutile, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >TTN Text 25 Blonde titanite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >ASE Text 25 Anatase, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >SPI Text 25 Spinel, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >KY/SIL Text 25 Kyanite and/or sillimanite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >TM_>hvySG Text 25 Tourmaline, in till fraction with specific gravity greater than 3.2 (heavy), 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >ST Text 25 Staurolite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >OL Text 25 Olivine, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility less than 0.8 amp. >OPX Text 25 Orthopyroxene, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility less than 0.8 amp. >CR Text 25 Chromite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility less than 0.8 amp. >AP Text 25 Apatite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >MZ Text 25 Monazite, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, and magnetic susceptibility greater than 1 amp. >ZR Text 25 Rose zircon, in till fraction with specific gravity greater than 3.2, 0.25 to 0.5 mm sieve grain size, magnetic susceptibility greater than 1 amp. >PCIM_>hvySG_remarks Memo 65,535 Remarks regarding porphyry copper indicator minerals, in till fraction with specific gravity greater than 3.2 (heavy), and 0.25 to 0.5 mm sieve grain size. >Assemblage Text 75 Mineral assemblage, porphyry copper indicator minerals, in till fraction with specific gravity greater than 3.2, and 0.25 to 0.5 mm sieve grain size. >Cu-mnrls Text 25 Copper minerals, in till fraction with specific gravity 2.8 to 3.2, 0.25 to 0.5 mm sieve grain size. >PCIM_misc Text 50 Miscellaneous prime porphyry copper indicator minerals, in till fraction with specific gravity 2.8 to 3.2, 0.25 to 0.5 mm sieve grain size. >JAR Text 25 Jarosite, in till fraction with specific gravity 2.8 to 3.2, and 0.25 to 0.5 mm sieve grain size. >ALN Text 25 Alunite, in till fraction with specific gravity 2.8 to 3.2, and 0.25 to 0.5 mm sieve grain size. >TM_medSG Text 25 Tourmaline in till fraction with specific gravity 2.8 to 3.2 (medium), 0.25 to 0.5 mm sieve grain size. >PCIM_medSG_remarks Memo 65,535 Remarks regarding porphyry copper indicator minerals, in till fraction with specific gravity 2.8 to 3.2 (medium), and 0.25 to 0.5 mm sieve grain size. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table LabName is a table of laboratories providing analytic data for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >LabShortName Text 15 Short name of laboratory that performed analysis. >LabName Text 255 Long name of laboratory that performed analysis. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Parameter is a table of parameters used to describe chemical and physical data yielded from samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >ParameterCode Text 25 Species and unit of measurement. >ParameterName Text 125 255-character field describing specific result. >ConstituentName Text 50 Element name or similar chemical group. >ReportUnits Text 10 Units of measurement. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table QualResult is a table of qualitative chemical and physical data yielded from samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >QualResultID AutoNumber Long Integer Unique qualitative value identifier. >SampleID Number Long Integer Unique sample identifier. >QualValue Text 50 Qualitative result. >ParameterCode Text 25 Species and unit of measurement. >AnalyticMethodShortName Text 15 Short name of analytic method. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >QualValueComment Text 75 Miscellaneous comments about result. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table QuantResult is a table of quantitative chemical and physical data yielded from samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >QuantResultID AutoNumber Long Integer Unique quantitative value identifier. >SampleID Number Long Integer Unique sample identifier. >QuantValue Number Double Numeric result. >QuantValueQual Text 1 Modifer for result; i.e., '<', '>'. >QualifiedValue Number Double Numeric result; qualified so that QuantValues with associated QuantValueQuals '<', 'N' or 'L' are expressed as negative values, and QuantValues with associated QuantValueQuals '>' or 'G' end in '111'. >Parameter Text 35 Chemical parameter that is a concatenation of ParameterCode, and AnalyticMethodShortName. >ParameterCode Text 25 Species and unit of measurement. >AnalyticMethodShortName Text 15 Short name of analytic method. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >AnalOrder Text Long Integer Initial order in which sample was run in job. >QuantValueComment Text 75 Miscellaneous comments about result. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Rock_AddlChem is a table of chemical data from non-ICP analytic methods for rock samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Au_ppm_FA Number Double Gold, in parts per million, by fire assay and direct current plasma-atomic emission spectroscopy. >C_pct_Comb Number Double Total carbon, in weight percent, by infrared detection after combustion at 1370°C in an automated carbon analyzer. >CO2_pct_Titr Number Double Carbon dioxide, in weight percent, by coulometric titration. >C-CO3_pct_Titr Number Double Carbonate carbon, in weight percent, by coulometric titration and computation (CO2/3.664). >C-Org_pct_Comb Number Double Organic carbon, in weight percent, by the calculated difference between total carbon and carbonate carbon. >Cl_ppm_ISE Number Double Chlorine, in parts per million, by ion specific electrode. >F_ppm_ISE Number Double Fluorine, in parts per million, by ion specific electrode. >Hg_ppm_AA Number Double Mercury, in parts per million, by cold vapor atomic absorption spectroscopy. >Sb_ppm_AA Number Double Antimony, in parts per million, by hydride generation atomic absorption spectroscopy. >Se_ppm_AA Number Double Selenium, in parts per million, by hydride generation atomic absorption spectroscopy. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Rock_ICPAES-MS42 is a table of inductively coupled plasma-atomic emission/mass spectroscopy chemical data after acid digestion for rock samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_AES-MS42 Number Double Silver, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Al_pct_AES-MS42 Number Double Aluminum, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >As_ppm_AES-MS42 Number Double Arsenic, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ba_ppm_AES-MS42 Number Double Barium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Be_ppm_AES-MS42 Number Double Beryllium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Bi_ppm_AES-MS42 Number Double Bismuth, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ca_pct_AES-MS42 Number Double Calcium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cd_ppm_AES-MS42 Number Double Cadmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ce_ppm_AES-MS42 Number Double Cerium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Co_ppm_AES-MS42 Number Double Cobalt, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cr_ppm_AES-MS42 Number Double Chromium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cs_ppm_AES-MS42 Number Double Cesium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cu_ppm_AES-MS42 Number Double Copper, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Fe_pct_AES-MS42 Number Double Iron, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ga_ppm_AES-MS42 Number Double Gallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >In_ppm_AES-MS42 Number Double Indium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >K_pct_AES-MS42 Number Double Potassium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >La_ppm_AES-MS42 Number Double Lanthanum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Li_ppm_AES-MS42 Number Double Lithium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mg_pct_AES-MS42 Number Double Magnesium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mn_ppm_AES-MS42 Number Double Manganese, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mo_ppm_AES-MS42 Number Double Molybdenum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Na_pct_AES-MS42 Number Double Sodium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Nb_ppm_AES-MS42 Number Double Niobium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ni_ppm_AES-MS42 Number Double Nickel, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >P_pct_AES-MS42 Number Double Phosphorus, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Pb_ppm_AES-MS42 Number Double Lead, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Rb_ppm_AES-MS42 Number Double Rubidium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >S_pct_AES-MS42 Number Double Sulfur, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sb_ppm_AES-MS42 Number Double Antimony, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sc_ppm_AES-MS42 Number Double Scandium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sn_ppm_AES-MS42 Number Double Tin, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sr_ppm_AES-MS42 Number Double Strontium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Te_ppm_AES-MS42 Number Double Tellurium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Th_ppm_AES-MS42 Number Double Thorium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ti_pct_AES-MS42 Number Double Titanium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Tl_ppm_AES-MS42 Number Double Thallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >U_ppm_AES-MS42 Number Double Uranium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >V_ppm_AES-MS42 Number Double Vanadium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >W_ppm_AES-MS42 Number Double Tungsten, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Y_ppm_AES-MS42 Number Double Yttrium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Zn_ppm_AES-MS42 Number Double Zinc, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Rock_ICPAES-MS55 is a table of inductively coupled plasma-atomic emission/mass spectroscopy chemical data after sinter digestion for rock samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSite Number Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_AES-MS55 Number Double Silver, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Al_pct_AES-MS55 Number Double Aluminum, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >As_ppm_AES-MS55 Number Double Arsenic, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ba_ppm_AES-MS55 Number Double Barium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Be_ppm_AES-MS55 Number Double Beryllium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Bi_ppm_AES-MS55 Number Double Bismuth, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ca_pct_AES-MS55 Number Double Calcium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cd_ppm_AES-MS55 Number Double Cadmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ce_ppm_AES-MS55 Number Double Cerium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Co_ppm_AES-MS55 Number Double Cobalt, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cr_ppm_AES-MS55 Number Double Chromium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cs_ppm_AES-MS55 Number Double Cesium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cu_ppm_AES-MS55 Number Double Copper, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Dy_ppm_AES-MS55 Number Double Dysprosium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Er_ppm_AES-MS55 Number Double Erbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Eu_ppm_AES-MS55 Number Double Europium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Fe_pct_AES-MS55 Number Double Iron, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ga_ppm_AES-MS55 Number Double Gallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Gd_ppm_AES-MS55 Number Double Gadolinium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ge_ppm_AES-MS55 Number Double Germanium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Hf_ppm_AES-MS55 Number Double Hafnium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ho_ppm_AES-MS55 Number Double Holmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >In_ppm_AES-MS55 Number Double Indium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >K_pct_AES-MS55 Number Double Potassium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >La_ppm_AES-MS55 Number Double Lanthanum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Li_ppm_AES-MS55 Number Double Lithium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Lu_ppm_AES-MS55 Number Double Lutetium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mg_pct_AES-MS55 Number Double Magnesium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mn_ppm_AES-MS55 Number Double Manganese, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mo_ppm_AES-MS55 Number Double Molybdenum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Nb_ppm_AES-MS55 Number Double Niobium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Nd_ppm_AES-MS55 Number Double Neodymium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ni_ppm_AES-MS55 Number Double Nickel, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >P_pct_AES-MS55 Number Double Phosphorus, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Pb_ppm_AES-MS55 Number Double Lead, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Pr_ppm_AES-MS55 Number Double Praseodymium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Rb_ppm_AES-MS55 Number Double Rubidium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sb_ppm_AES-MS55 Number Double Antimony, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sc_ppm_AES-MS55 Number Double Scandium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sm_ppm_AES-MS55 Number Double Samarium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sn_ppm_AES-MS55 Number Double Tin, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sr_ppm_AES-MS55 Number Double Strontium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ta_ppm_AES-MS55 Number Double Tantalum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tb_ppm_AES-MS55 Number Double Terbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Th_ppm_AES-MS55 Number Double Thorium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ti_pct_AES-MS55 Number Double Titanium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tl_ppm_AES-MS55 Number Double Thallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tm_ppm_AES-MS55 Number Double Thulium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >U_ppm_AES-MS55 Number Double Uranium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >V_ppm_AES-MS55 Number Double Vanadium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >W_ppm_AES-MS55 Number Double Tungsten, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Y_ppm_AES-MS55 Number Double Yttrium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Yb_ppm_AES-MS55 Number Double Ytterbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion >Zn_ppm_AES-MS55 Number Double Zinc, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Zr_ppm_AES-MS55 Number Double Zirconium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Sample is a table of descriptive attributes for samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >IncrementsPerArea Text 15 Number of sub-sample increments : area sampled in square feet, for composite sample. >SampleDate Date/Time Short Date Day sample was taken, in mmddyyyy. >SampleTime Date/Time Short Time Time sample was taken, in military time. >SampleMediaGross Text 15 General type of sample media. >SampleMediaDetail Text 75 Detail type of sample media. >SampleDesc Memo 65,535 Further description of sample. >OrganicContent Text 50 Relative organic content in sample collected. >SpeciesGenus Text 15 Species and genus names for plant or animal samples. >CommonName Text 25 Common name for sampled vegetation. >CollectionMethod Text 50 Method used to collect sample, i.e. grab, composite, etc. >SampleSource Text 175 Source of sample. >SampleZone Text 15 Soil horizon sampled >SampleIntent Text 50 Intent of sample: GX, geochemistry; HS, hand sample; XRD, x-ray mineral identification; leach, water leach test; MIN, binocular mineralogy, etc. >FieldSamplePrep Text 200 Preparation of sample in field prior to submittal to lab for analysis. >LabSamplePrep Text 255 Preparation of sample done in the laboratory prior to analysis. >SieveSize Text 15 Sieve size used in laboratory preparation; given in both mesh size and millimeter opening size. >CollectorCode Text 25 Last name and first name initial of the scientist who collected the sample and the year the sample was collected. >SampleCom Text 255 Any additional note not captured elsewhere regarding the sample. >FieldMnrlgy Text 255 Minerals identified by handlens in the field. >BinocMnrlgy Text 255 Minerals identified in the lab with binocular microscope. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table SampleID_H2O is a table joining Sample table to derivative water media data tables of the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table SampleID_Soil is a table joining Sample table to derivative soil media data tables of the Pebble project. FieldName FieldType FieldSize-Format FieldDescript > SampleID Number Long Integer Unique sample identifier. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Sed_AddlChem is a table of chemical data from non-ICP analytic methods for sediment samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleSource Text 175 Source of sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >As_ppm_AA Number Double Arsenic, in parts per million, by hydride generation atomic absorption spectrophotometry. >Au_ppm_FA Number Double Gold, in parts per million, by fire assay and direct current plasma-atomic emission spectroscopy. >C_pct_Comb Number Double Total carbon, in weight percent, by infrared detection after combustion at 1370°C in an automated carbon analyzer. >CO2_pct_Titr Number Double Carbon dioxide, in weight percent, by coulometric titration. >C-CO3_pct_Titr Number Double Carbonate carbon, in weight percent, by coulometric titration and computation (CO2/3.664). >C-Org_pct_Comb Number Double Organic carbon, in weight percent, by the calculated difference between total carbon and carbonate carbon. >Cl_ppm_ISE Number Double Chlorine, in parts per million, by ion specific electrode. >F_ppm_ISE Number Double Fluorine, in parts per million, by ion specific electrode. >Hg_ppm_AA Number Double Mercury, in parts per million, by cold vapor atomic absorption spectroscopy. >Sb_ppm_AA Number Double Antimony, in parts per million, by hydride generation atomic absorption spectroscopy. >Se_ppm_AA Number Double Selenium, in parts per million, by hydride generation atomic absorption spectroscopy. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Sed_ICPAES-MS42 is a table of inductively coupled plasma-atomic emission/mass spectroscopy chemical data after acid digestion for sediment samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleSource Text 175 Source of sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_AES-MS42 Number Double Silver, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Al_pct_AES-MS42 Number Double Aluminum, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >As_ppm_AES-MS42 Number Double Arsenic, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ba_ppm_AES-MS42 Number Double Barium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Be_ppm_AES-MS42 Number Double Beryllium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Bi_ppm_AES-MS42 Number Double Bismuth, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ca_pct_AES-MS42 Number Double Calcium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cd_ppm_AES-MS42 Number Double Cadmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ce_ppm_AES-MS42 Number Double Cerium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Co_ppm_AES-MS42 Number Double Cobalt, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cr_ppm_AES-MS42 Number Double Chromium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cs_ppm_AES-MS42 Number Double Cesium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cu_ppm_AES-MS42 Number Double Copper, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Fe_pct_AES-MS42 Number Double Iron, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ga_ppm_AES-MS42 Number Double Gallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >In_ppm_AES-MS42 Number Double Indium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >K_pct_AES-MS42 Number Double Potassium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >La_ppm_AES-MS42 Number Double Lanthanum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Li_ppm_AES-MS42 Number Double Lithium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mg_pct_AES-MS42 Number Double Magnesium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mn_ppm_AES-MS42 Number Double Manganese, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mo_ppm_AES-MS42 Number Double Molybdenum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Na_pct_AES-MS42 Number Double Sodium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Nb_ppm_AES-MS42 Number Double Niobium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ni_ppm_AES-MS42 Number Double Nickel, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >P_pct_AES-MS42 Number Double Phosphorus, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Pb_ppm_AES-MS42 Number Double Lead, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Rb_ppm_AES-MS42 Number Double Rubidium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >S_pct_AES-MS42 Number Double Sulfur, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sb_ppm_AES-MS42 Number Double Antimony, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sc_ppm_AES-MS42 Number Double Scandium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sn_ppm_AES-MS42 Number Double Tin, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sr_ppm_AES-MS42 Number Double Strontium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Te_ppm_AES-MS42 Number Double Tellurium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Th_ppm_AES-MS42 Number Double Thorium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ti_pct_AES-MS42 Number Double Titanium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Tl_ppm_AES-MS42 Number Double Thallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >U_ppm_AES-MS42 Number Double Uranium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >V_ppm_AES-MS42 Number Double Vanadium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >W_ppm_AES-MS42 Number Double Tungsten, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Y_ppm_AES-MS42 Number Double Yttrium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Zn_ppm_AES-MS42 Number Double Zinc, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Sed_ICPAES-MS55 is a table of inductively coupled plasma-atomic emission/mass spectroscopy chemical data after sinter digestion for sediment samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleSource Text 175 Source of sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_AES-MS55 Number Double Silver, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Al_pct_AES-MS55 Number Double Aluminum, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >As_ppm_AES-MS55 Number Double Arsenic, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ba_ppm_AES-MS55 Number Double Barium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Be_ppm_AES-MS55 Number Double Beryllium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Bi_ppm_AES-MS55 Number Double Bismuth, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ca_pct_AES-MS55 Number Double Calcium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cd_ppm_AES-MS55 Number Double Cadmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ce_ppm_AES-MS55 Number Double Cerium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Co_ppm_AES-MS55 Number Double Cobalt, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cr_ppm_AES-MS55 Number Double Chromium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cs_ppm_AES-MS55 Number Double Cesium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cu_ppm_AES-MS55 Number Double Copper, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Dy_ppm_AES-MS55 Number Double Dysprosium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Er_ppm_AES-MS55 Number Double Erbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Eu_ppm_AES-MS55 Number Double Europium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Fe_pct_AES-MS55 Number Double Iron, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ga_ppm_AES-MS55 Number Double Gallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Gd_ppm_AES-MS55 Number Double Gadolinium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ge_ppm_AES-MS55 Number Double Germanium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Hf_ppm_AES-MS55 Number Double Hafnium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ho_ppm_AES-MS55 Number Double Holmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >In_ppm_AES-MS55 Number Double Indium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >K_pct_AES-MS55 Number Double Potassium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >La_ppm_AES-MS55 Number Double Lanthanum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Li_ppm_AES-MS55 Number Double Lithium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Lu_ppm_AES-MS55 Number Double Lutetium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mg_pct_AES-MS55 Number Double Magnesium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mn_ppm_AES-MS55 Number Double Manganese, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mo_ppm_AES-MS55 Number Double Molybdenum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Nb_ppm_AES-MS55 Number Double Niobium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Nd_ppm_AES-MS55 Number Double Neodymium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ni_ppm_AES-MS55 Number Double Nickel, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >P_pct_AES-MS55 Number Double Phosphorus, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Pb_ppm_AES-MS55 Number Double Lead, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Pr_ppm_AES-MS55 Number Double Praseodymium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Rb_ppm_AES-MS55 Number Double Rubidium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sb_ppm_AES-MS55 Number Double Antimony, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sc_ppm_AES-MS55 Number Double Scandium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sm_ppm_AES-MS55 Number Double Samarium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sn_ppm_AES-MS55 Number Double Tin, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sr_ppm_AES-MS55 Number Double Strontium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ta_ppm_AES-MS55 Number Double Tantalum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tb_ppm_AES-MS55 Number Double Terbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Th_ppm_AES-MS55 Number Double Thorium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ti_pct_AES-MS55 Number Double Titanium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tl_ppm_AES-MS55 Number Double Thallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tm_ppm_AES-MS55 Number Double Thulium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >U_ppm_AES-MS55 Number Double Uranium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >V_ppm_AES-MS55 Number Double Vanadium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >W_ppm_AES-MS55 Number Double Tungsten, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Y_ppm_AES-MS55 Number Double Yttrium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Yb_ppm_AES-MS55 Number Double Ytterbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion >Zn_ppm_AES-MS55 Number Double Zinc, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Zr_ppm_AES-MS55 Number Double Zirconium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_AddlChem is a table of chemical data from non-ICP analytic methods for soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >As_ppm_AA Number Double Arsenic, in parts per million, by hydride generation atomic absorption spectrophotometry. >Au_ppm_FA Number Double Gold, in parts per million, by fire assay and direct current plasma-atomic emission spectroscopy. >C_pct_Comb Number Double Total carbon, in weight percent, by infrared detection after combustion at 1370°C in an automated carbon analyzer. >CO2_pct_Titr Number Double Carbon dioxide, in weight percent, by coulometric titration. >C-CO3_pct_Titr Number Double Carbonate carbon, in weight percent, by coulometric titration and computation (CO2/3.664). >C-Org_pct_Comb Number Double Organic carbon, in weight percent, by the calculated difference between total carbon and carbonate carbon. >Cl_ppm_ISE Number Double Chlorine, in parts per million, by ion specific electrode. >F_ppm_ISE Number Double Fluorine, in parts per million, by ion specific electrode. >Hg_ppm_AA Number Double Mercury, in parts per million, by cold vapor atomic absorption spectroscopy. >Sb_ppm_AA Number Double Antimony, in parts per million, by hydride generation atomic absorption spectroscopy. >Se_ppm_AA Number Double Selenium, in parts per million, by hydride generation atomic absorption spectroscopy. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_GCMS-SGH is a table of gas chromatography/mass spectroscopy weak leach simulation chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >SGH001LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH002LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH003LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH004LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH005LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH006LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH007LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH008LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH009LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH010LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH011LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH012LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH013LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH014LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH015LAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH016LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH017LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH018LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH019LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH020LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH021LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH022LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH023LAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH024LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH025LAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH026LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH027LB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH028ALK_ppt_GC-MS Number Double alkyl-alkene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH029HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH030HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH031HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH032HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH033HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH034HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH035LAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH036LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH037HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH038LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH039LAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH040LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH041LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH042LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH043HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH044HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH045LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH046LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH047LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH048HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH049HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH050LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH051LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH052LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH053LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH054HB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH055LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH056LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH057ALK_ppt_GC-MS Number Double alkyl-alkene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH058LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH059LPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH060LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH061LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH062LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH063LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH064LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH065HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH066LBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH067LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH068HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH069LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH070HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH071HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH072HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH073HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH074HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH075HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH076LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH077MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH078ALK_ppt_GC-MS Number Double alkyl-alkene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH079LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH080LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH081MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH082LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH083HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH084HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH085LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH086LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH087MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH088HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH089THI_ppt_GC-MS Number Double alkyl-divinylene sulfide compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH090HPB_ppt_GC-MS Number Double alkyl-benzene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH091LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH092LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH093LA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH094LBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH095MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH096LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH097HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH098THI_ppt_GC-MS Number Double alkyl-divinylene sulfide compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH099LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH100LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH101MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH102MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH103LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH104MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH105ALK_ppt_GC-MS Number Double alkyl-alkene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH106MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH107MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH108LPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH109MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH110HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH111MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH112MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH113HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH114MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH115MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH116MAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH117HA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH118MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH119HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH120THI_ppt_GC-MS Number Double alkyl-divinylene sulfide compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH121MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH122MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH123MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH124MBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH125HAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH126MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH127MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH128MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH129HAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH130HAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH131MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH132ALK_ppt_GC-MS Number Double alkyl-alkene compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH133HAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH134HAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH135MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH136MPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH137HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH138HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH139HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH140HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH141HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH142HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH143HA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH144HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH145HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH146HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH147HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH148HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH149HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH150HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH151HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH152HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH153HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH154HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH155HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH156HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH157HAR_ppt_GC-MS Number Double alkyl-aromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH158HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH159HBA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH160HBI_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH161HA_ppt_GC-MS Number Double alkyl-alkane compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. >SGH162HPH_ppt_GC-MS Number Double alkyl-polyaromatic compounds, specifics are proprietary, in parts per trillion, by gas chromatography-mass spectroscopy after weak leach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPAES-MS42 is a table of inductively coupled plasma-atomic emission/mass spectroscopy chemical data after acid digestion for soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_AES-MS42 Number Double Silver, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Al_pct_AES-MS42 Number Double Aluminum, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >As_ppm_AES-MS42 Number Double Arsenic, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ba_ppm_AES-MS42 Number Double Barium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Be_ppm_AES-MS42 Number Double Beryllium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Bi_ppm_AES-MS42 Number Double Bismuth, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ca_pct_AES-MS42 Number Double Calcium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cd_ppm_AES-MS42 Number Double Cadmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ce_ppm_AES-MS42 Number Double Cerium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Co_ppm_AES-MS42 Number Double Cobalt, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cr_ppm_AES-MS42 Number Double Chromium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cs_ppm_AES-MS42 Number Double Cesium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Cu_ppm_AES-MS42 Number Double Copper, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Fe_pct_AES-MS42 Number Double Iron, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ga_ppm_AES-MS42 Number Double Gallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >In_ppm_AES-MS42 Number Double Indium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >K_pct_AES-MS42 Number Double Potassium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >La_ppm_AES-MS42 Number Double Lanthanum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Li_ppm_AES-MS42 Number Double Lithium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mg_pct_AES-MS42 Number Double Magnesium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mn_ppm_AES-MS42 Number Double Manganese, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Mo_ppm_AES-MS42 Number Double Molybdenum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Na_pct_AES-MS42 Number Double Sodium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Nb_ppm_AES-MS42 Number Double Niobium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ni_ppm_AES-MS42 Number Double Nickel, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >P_pct_AES-MS42 Number Double Phosphorus, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Pb_ppm_AES-MS42 Number Double Lead, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Rb_ppm_AES-MS42 Number Double Rubidium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >S_pct_AES-MS42 Number Double Sulfur, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sb_ppm_AES-MS42 Number Double Antimony, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sc_ppm_AES-MS42 Number Double Scandium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sn_ppm_AES-MS42 Number Double Tin, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Sr_ppm_AES-MS42 Number Double Strontium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Te_ppm_AES-MS42 Number Double Tellurium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Th_ppm_AES-MS42 Number Double Thorium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Ti_pct_AES-MS42 Number Double Titanium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Tl_ppm_AES-MS42 Number Double Thallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >U_ppm_AES-MS42 Number Double Uranium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >V_ppm_AES-MS42 Number Double Vanadium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >W_ppm_AES-MS42 Number Double Tungsten, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Y_ppm_AES-MS42 Number Double Yttrium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. >Zn_ppm_AES-MS42 Number Double Zinc, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after 4-acid digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPAES-MS55 is a table of inductively coupled plasma-atomic emission/mass spectroscopy chemical data after sinter digestion for soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_AES-MS55 Number Double Silver, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Al_pct_AES-MS55 Number Double Aluminum, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >As_ppm_AES-MS55 Number Double Arsenic, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ba_ppm_AES-MS55 Number Double Barium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Be_ppm_AES-MS55 Number Double Beryllium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Bi_ppm_AES-MS55 Number Double Bismuth, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ca_pct_AES-MS55 Number Double Calcium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cd_ppm_AES-MS55 Number Double Cadmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ce_ppm_AES-MS55 Number Double Cerium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Co_ppm_AES-MS55 Number Double Cobalt, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cr_ppm_AES-MS55 Number Double Chromium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cs_ppm_AES-MS55 Number Double Cesium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Cu_ppm_AES-MS55 Number Double Copper, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Dy_ppm_AES-MS55 Number Double Dysprosium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Er_ppm_AES-MS55 Number Double Erbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Eu_ppm_AES-MS55 Number Double Europium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Fe_pct_AES-MS55 Number Double Iron, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ga_ppm_AES-MS55 Number Double Gallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Gd_ppm_AES-MS55 Number Double Gadolinium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ge_ppm_AES-MS55 Number Double Germanium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Hf_ppm_AES-MS55 Number Double Hafnium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ho_ppm_AES-MS55 Number Double Holmium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >In_ppm_AES-MS55 Number Double Indium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >K_pct_AES-MS55 Number Double Potassium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >La_ppm_AES-MS55 Number Double Lanthanum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Li_ppm_AES-MS55 Number Double Lithium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Lu_ppm_AES-MS55 Number Double Lutetium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mg_pct_AES-MS55 Number Double Magnesium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mn_ppm_AES-MS55 Number Double Manganese, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Mo_ppm_AES-MS55 Number Double Molybdenum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Nb_ppm_AES-MS55 Number Double Niobium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Nd_ppm_AES-MS55 Number Double Neodymium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ni_ppm_AES-MS55 Number Double Nickel, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >P_pct_AES-MS55 Number Double Phosphorus, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Pb_ppm_AES-MS55 Number Double Lead, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Pr_ppm_AES-MS55 Number Double Praseodymium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Rb_ppm_AES-MS55 Number Double Rubidium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sb_ppm_AES-MS55 Number Double Antimony, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sc_ppm_AES-MS55 Number Double Scandium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sm_ppm_AES-MS55 Number Double Samarium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sn_ppm_AES-MS55 Number Double Tin, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Sr_ppm_AES-MS55 Number Double Strontium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ta_ppm_AES-MS55 Number Double Tantalum, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tb_ppm_AES-MS55 Number Double Terbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Th_ppm_AES-MS55 Number Double Thorium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Ti_pct_AES-MS55 Number Double Titanium, in weight percent, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tl_ppm_AES-MS55 Number Double Thallium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Tm_ppm_AES-MS55 Number Double Thulium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >U_ppm_AES-MS55 Number Double Uranium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >V_ppm_AES-MS55 Number Double Vanadium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >W_ppm_AES-MS55 Number Double Tungsten, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Y_ppm_AES-MS55 Number Double Yttrium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Yb_ppm_AES-MS55 Number Double Ytterbium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion >Zn_ppm_AES-MS55 Number Double Zinc, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. >Zr_ppm_AES-MS55 Number Double Zirconium, in parts per million, by inductively coupled plasma-atomic emission spectroscopy or mass spectroscopy after sinter digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-AR is a table of inductively coupled plasma-mass spectroscopy aqua regia leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_MS-AR Number Double Silver, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Al_pct_MS-AR Number Double Aluminum, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >As_ppm_MS-AR Number Double Arsenic, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Au_ppb_MS-AR Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >B_ppm_MS-AR Number Double Boron, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ba_ppm_MS-AR Number Double Barium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Be_ppm_MS-AR Number Double Beryllium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Bi_ppm_MS-AR Number Double Bismuth, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ca_pct_MS-AR Number Double Calcium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cd_ppm_MS-AR Number Double Cadmium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ce_ppm_MS-AR Number Double Cerium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Co_ppm_MS-AR Number Double Cobalt, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cr_ppm_MS-AR Number Double Chromium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cs_ppm_MS-AR Number Double Cesium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cu_ppm_MS-AR Number Double Copper, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Fe_pct_MS-AR Number Double Iron, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ga_ppm_MS-AR Number Double Gallium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ge_ppm_MS-AR Number Double Germanium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Hf_ppm_MS-AR Number Double Hafnium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Hg_ppm_MS-AR Number Double Mercury, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >In_ppm_MS-AR Number Double Indium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >K_pct_MS-AR Number Double Potassium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >La_ppm_MS-AR Number Double Lanthanum, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Li_ppm_MS-AR Number Double Lithium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mg_pct_MS-AR Number Double Magnesium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mn_ppm_MS-AR Number Double Manganese, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mo_ppm_MS-AR Number Double Molybdenum, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Na_pct_MS-AR Number Double Sodium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Nb_ppm_MS-AR Number Double Niobium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ni_ppm_MS-AR Number Double Nickel, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >P_pct_MS-AR Number Double Phosphorus, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pb_ppm_MS-AR Number Double Lead, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pd_ppb_MS-AR Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pt_ppb_MS-AR Number Double Platinum, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Rb_ppm_MS-AR Number Double Rubidium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Re_ppb_MS-AR Number Double Rhenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >S_pct_MS-AR Number Double Sulfur, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sb_ppm_MS-AR Number Double Antimony, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sc_ppm_MS-AR Number Double Scandium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Se_ppm_MS-AR Number Double Selenium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sn_ppm_MS-AR Number Double Tin, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sr_ppm_MS-AR Number Double Strontium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ta_ppm_MS-AR Number Double Tantalum, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Te_ppm_MS-AR Number Double Tellurium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Th_ppm_MS-AR Number Double Thorium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ti_pct_MS-AR Number Double Titanium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Tl_ppm_MS-AR Number Double Thallium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >U_ppm_MS-AR Number Double Uranium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >V_ppm_MS-AR Number Double Vanadium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >W_ppm_MS-AR Number Double Tungsten, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Y_ppm_MS-AR Number Double Yttrium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Zn_ppm_MS-AR Number Double Zinc, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Zr_ppm_MS-AR Number Double Zirconium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-BLch is a table of inductively coupled plasma-mass spectroscopy BioLeach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-BL Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >As_ppb_MS-BL Number Double Arsenic, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Au_ppb_MS-BL Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ba_ppb_MS-BL Number Double Barium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Be_ppb_MS-BL Number Double Beryllium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Bi_ppb_MS-BL Number Double Bismuth, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Br_ppb_MS-BL Number Double Bromine, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Cd_ppb_MS-BL Number Double Cadmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ce_ppb_MS-BL Number Double Cerium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Co_ppb_MS-BL Number Double Cobalt, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Cr_ppb_MS-BL Number Double Chromium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Cs_ppb_MS-BL Number Double Cesium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Cu_ppb_MS-BL Number Double Copper, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Dy_ppb_MS-BL Number Double Dysprosium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Er_ppb_MS-BL Number Double Erbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Eu_ppb_MS-BL Number Double Europium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ga_ppb_MS-BL Number Double Gallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Gd_ppb_MS-BL Number Double Gadolinium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ge_ppb_MS-BL Number Double Germanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Hf_ppb_MS-BL Number Double Hafnium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Hg_ppb_MS-BL Number Double Mercury, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ho_ppb_MS-BL Number Double Holmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >I_ppb_MS-BL Number Double Iodine, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >In_ppb_MS-BL Number Double Indium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >La_ppb_MS-BL Number Double Lanthanum, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Li_ppb_MS-BL Number Double Lithium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Lu_ppb_MS-BL Number Double Lutetium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Mn_ppb_MS-BL Number Double Manganese, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Mo_ppb_MS-BL Number Double Molybdenum, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Nb_ppb_MS-BL Number Double Niobium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Nd_ppb_MS-BL Number Double Neodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ni_ppb_MS-BL Number Double Nickel, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Os_ppb_MS-BL Number Double Osmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Pb_ppb_MS-BL Number Double Lead, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Pd_ppb_MS-BL Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Pr_ppb_MS-BL Number Double Praseodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Pt_ppb_MS-BL Number Double Platinum, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Rb_ppb_MS-BL Number Double Rubidium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Re_ppb_MS-BL Number Double Rhenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ru_ppb_MS-BL Number Double Ruthenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Sb_ppb_MS-BL Number Double Antimony, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Sc_ppb_MS-BL Number Double Scandium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Se_ppb_MS-BL Number Double Selenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Sm_ppb_MS-BL Number Double Samarium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Sr_ppb_MS-BL Number Double Strontium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Ta_ppb_MS-BL Number Double Tantalum, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Tb_ppb_MS-BL Number Double Terbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Te_ppb_MS-BL Number Double Tellurium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Th_ppb_MS-BL Number Double Thorium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Tl_ppb_MS-BL Number Double Thallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Tm_ppb_MS-BL Number Double Thulium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >U_ppb_MS-BL Number Double Uranium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >V_ppb_MS-BL Number Double Vanadium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >W_ppb_MS-BL Number Double Tungsten, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Y_ppb_MS-BL Number Double Yttrium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Yb_ppb_MS-BL Number Double Ytterbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Zn_ppb_MS-BL Number Double Zinc, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. >Zr_ppb_MS-BL Number Double Zirconium, in parts per billion, by inductively coupled plasma-mass spectroscopy after BioLeach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-CHHLch is a table of inductively coupled plasma-mass spectroscopy cold hydroxylamine hydrochloride leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_MS-CH Number Double Silver, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Al_ppm_MS-CH Number Double Aluminum, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >As_ppm_MS-CH Number Double Arsenic, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Au_ppm_MS-CH Number Double Gold, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >B_ppm_MS-CH Number Double Boron, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ba_ppm_MS-CH Number Double Barium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Be_ppm_MS-CH Number Double Beryllium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Bi_ppm_MS-CH Number Double Bismuth, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Br_ppm_MS-CH Number Double Bromine, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ca_ppm_MS-CH Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Cd_ppm_MS-CH Number Double Cadmium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ce_ppm_MS-CH Number Double Cerium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Co_ppm_MS-CH Number Double Cobalt, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Cr_ppm_MS-CH Number Double Chromium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Cs_ppm_MS-CH Number Double Cesium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Cu_ppm_MS-CH Number Double Copper, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Dy_ppm_MS-CH Number Double Dysprosium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Er_ppm_MS-CH Number Double Erbium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Eu_ppm_MS-CH Number Double Europium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Fe_ppm_MS-CH Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ga_ppm_MS-CH Number Double Gallium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Gd_ppm_MS-CH Number Double Gadolinium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ge_ppm_MS-CH Number Double Germanium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Hf_ppm_MS-CH Number Double Hafnium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Hg_ppm_MS-CH Number Double Mercury, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ho_ppm_MS-CH Number Double Holmium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >I_ppm_MS-CH Number Double Iodine, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >In_ppm_MS-CH Number Double Indium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >K_ppm_MS-CH Number Double Potassium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >La_ppm_MS-CH Number Double Lanthanum, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Li_ppm_MS-CH Number Double Lithium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Lu_ppm_MS-CH Number Double Lutetium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Mg_ppm_MS-CH Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Mn_ppm_MS-CH Number Double Manganese, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Mo_ppm_MS-CH Number Double Molybdenum, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Na_ppm_MS-CH Number Double Sodium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Nb_ppm_MS-CH Number Double Niobium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Nd_ppm_MS-CH Number Double Neodymium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ni_ppm_MS-CH Number Double Nickel, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >P_ppm_MS-CH Number Double Phosphorus, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Pb_ppm_MS-CH Number Double Lead, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Pr_ppm_MS-CH Number Double Praseodymium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Rb_ppm_MS-CH Number Double Rubidium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Re_ppm_MS-CH Number Double Rhenium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Sb_ppm_MS-CH Number Double Antimony, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Se_ppm_MS-CH Number Double Selenium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Sm_ppm_MS-CH Number Double Samarium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Sn_ppm_MS-CH Number Double Tin, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Sr_ppm_MS-CH Number Double Strontium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ta_ppm_MS-CH Number Double Tantalum, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Tb_ppm_MS-CH Number Double Terbium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Te_ppm_MS-CH Number Double Tellurium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Th_ppm_MS-CH Number Double Thorium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Ti_ppm_MS-CH Number Double Titanium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Tl_ppm_MS-CH Number Double Thallium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Tm_ppm_MS-CH Number Double Thulium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >U_ppm_MS-CH Number Double Uranium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >V_ppm_MS-CH Number Double Vanadium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >W_ppm_MS-CH Number Double Tungsten, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Y_ppm_MS-CH Number Double Yttrium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Yb_ppm_MS-CH Number Double Ytterbium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Zn_ppm_MS-CH Number Double Zinc, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >Zr_ppm_MS-CH Number Double Zirconium, in parts per million, by inductively coupled plasma-mass spectroscopy after cold hydroxylamine hydrochloride leach. >pH-paste_SI_ISE Number Double pH of paste, in standard units, by digital pH meter in the lab. >SpCon-paste_uS/cm_Instr Number Double Specific conductivity of paste, in micro-Siemens per centimeter, by conductivity meter. >pH-lch-fin_SI_ISE Number Double pH of leachate following acid extraction, in standard units, by digital pH meter in the lab. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-EELch is a table of inductively coupled plasma-mass spectroscopy enhanced enzyme leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-EZ Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Al_ppm_MS-EZ Number Double Aluminum, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >As_ppb_MS-EZ Number Double Arsenic, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Au_ppb_MS-EZ Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ba_ppb_MS-EZ Number Double Barium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Be_ppb_MS-EZ Number Double Beryllium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Bi_ppb_MS-EZ Number Double Bismuth, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Br_ppb_MS-EZ Number Double Bromine, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ca_ppm_MS-EZ Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Cd_ppb_MS-EZ Number Double Cadmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ce_ppb_MS-EZ Number Double Cerium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Cl_ppb_MS-EZ Number Double Chlorine, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Co_ppb_MS-EZ Number Double Cobalt, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Cr_ppb_MS-EZ Number Double Chromium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Cs_ppb_MS-EZ Number Double Cesium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Cu_ppb_MS-EZ Number Double Copper, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Dy_ppb_MS-EZ Number Double Dysprosium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Er_ppb_MS-EZ Number Double Erbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Eu_ppb_MS-EZ Number Double Europium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Fe_ppm_MS-EZ Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ga_ppb_MS-EZ Number Double Gallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Gd_ppb_MS-EZ Number Double Gadolinium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ge_ppb_MS-EZ Number Double Germanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Hf_ppb_MS-EZ Number Double Hafnium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Hg_ppb_MS-EZ Number Double Mercury, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ho_ppb_MS-EZ Number Double Holmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >I_ppb_MS-EZ Number Double Iodine, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >In_ppb_MS-EZ Number Double Indium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >K_ppm_MS-EZ Number Double Potassium, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >La_ppb_MS-EZ Number Double Lanthanum, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Li_ppb_MS-EZ Number Double Lithium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Lu_ppb_MS-EZ Number Double Lutetium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Mg_ppm_MS-EZ Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Mn_ppb_MS-EZ Number Double Manganese, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Mo_ppb_MS-EZ Number Double Molybdenum, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Na_ppm_MS-EZ Number Double Sodium, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Nb_ppb_MS-EZ Number Double Niobium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Nd_ppb_MS-EZ Number Double Neodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ni_ppb_MS-EZ Number Double Nickel, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Os_ppb_MS-EZ Number Double Osmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Pb_ppb_MS-EZ Number Double Lead, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Pd_ppb_MS-EZ Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Pr_ppb_MS-EZ Number Double Praseodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Pt_ppb_MS-EZ Number Double Platinum, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Rb_ppb_MS-EZ Number Double Rubidium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Re_ppb_MS-EZ Number Double Rhenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ru_ppb_MS-EZ Number Double Ruthenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >S_ppm_MS-EZ Number Double Sulfur, in parts per million, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Sb_ppb_MS-EZ Number Double Antimony, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Sc_ppb_MS-EZ Number Double Scandium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Se_ppb_MS-EZ Number Double Selenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Sm_ppb_MS-EZ Number Double Samarium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Sn_ppb_MS-EZ Number Double Tin, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Sr_ppb_MS-EZ Number Double Strontium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ta_ppb_MS-EZ Number Double Tantalum, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Tb_ppb_MS-EZ Number Double Terbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Te_ppb_MS-EZ Number Double Tellurium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Th_ppb_MS-EZ Number Double Thorium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Ti_ppb_MS-EZ Number Double Titanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Tl_ppb_MS-EZ Number Double Thallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Tm_ppb_MS-EZ Number Double Thulium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >U_ppb_MS-EZ Number Double Uranium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >V_ppb_MS-EZ Number Double Vanadium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >W_ppb_MS-EZ Number Double Tungsten, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Y_ppb_MS-EZ Number Double Yttrium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Yb_ppb_MS-EZ Number Double Ytterbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Zn_ppb_MS-EZ Number Double Zinc, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. >Zr_ppb_MS-EZ Number Double Zirconium, in parts per billion, by inductively coupled plasma-mass spectroscopy after enhanced enzyme leach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-FLT is a table of inductively coupled plasma-mass spectroscopy deionized water leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-FLT Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Al_ppm_MS-FLT Number Double Aluminum, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >As_ppb_MS-FLT Number Double Arsenic, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ba_ppb_MS-FLT Number Double Barium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Be_ppb_MS-FLT Number Double Beryllium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Bi_ppb_MS-FLT Number Double Bismuth, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ca_ppm_MS-FLT Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Cd_ppb_MS-FLT Number Double Cadmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ce_ppb_MS-FLT Number Double Cerium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Co_ppb_MS-FLT Number Double Cobalt, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Cr_ppb_MS-FLT Number Double Chromium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Cs_ppb_MS-FLT Number Double Cesium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Cu_ppb_MS-FLT Number Double Copper, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Dy_ppb_MS-FLT Number Double Dysprosium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Er_ppb_MS-FLT Number Double Erbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Eu_ppb_MS-FLT Number Double Europium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Fe_ppm_MS-FLT Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ga_ppb_MS-FLT Number Double Gallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Gd_ppb_MS-FLT Number Double Gadolinium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ge_ppb_MS-FLT Number Double Germanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ho_ppb_MS-FLT Number Double Holmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >K_ppm_MS-FLT Number Double Potassium, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >La_ppb_MS-FLT Number Double Lanthanum, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Li_ppb_MS-FLT Number Double Lithium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Lu_ppb_MS-FLT Number Double Lutetium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Mg_ppm_MS-FLT Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Mn_ppb_MS-FLT Number Double Manganese, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Mo_ppb_MS-FLT Number Double Molybdenum, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Na_ppm_MS-FLT Number Double Sodium, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Nb_ppb_MS-FLT Number Double Niobium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Nd_ppb_MS-FLT Number Double Neodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ni_ppb_MS-FLT Number Double Nickel, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >P_ppm_MS-FLT Number Double Phosphorus, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Pb_ppb_MS-FLT Number Double Lead, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Pr_ppb_MS-FLT Number Double Praseodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Rb_ppb_MS-FLT Number Double Rubidium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Sb_ppb_MS-FLT Number Double Antimony, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Sc_ppb_MS-FLT Number Double Scandium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Se_ppb_MS-FLT Number Double Selenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >SiO2_ppm_MS-FLT Number Double Silicon, as silicon dioxide, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Sm_ppb_MS-FLT Number Double Samarium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >SO4_ppm_MS-FLT Number Double Sulfate, in parts per million, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Sr_ppb_MS-FLT Number Double Strontium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ta_ppb_MS-FLT Number Double Tantalum, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Tb_ppb_MS-FLT Number Double Terbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Th_ppb_MS-FLT Number Double Thorium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Ti_ppb_MS-FLT Number Double Titanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Tl_ppb_MS-FLT Number Double Thallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Tm_ppb_MS-FLT Number Double Thulium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >U_ppb_MS-FLT Number Double Uranium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >V_ppb_MS-FLT Number Double Vanadium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >W_ppb_MS-FLT Number Double Tungsten, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Y_ppb_MS-FLT Number Double Yttrium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Yb_ppb_MS-FLT Number Double Ytterbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Zn_ppb_MS-FLT Number Double Zinc, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. >Zr_ppb_MS-FLT Number Double Zirconium, in parts per billion, by inductively coupled plasma-mass spectroscopy after de-ionized water Field Leach Test. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-ILch is a table of inductively coupled plasma-mass spectroscopy ionic leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-IL Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >As_ppb_MS-IL Number Double Arsenic, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Au_ppb_MS-IL Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ba_ppb_MS-IL Number Double Barium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Be_ppb_MS-IL Number Double Beryllium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Bi_ppb_MS-IL Number Double Bismuth, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Br_ppm_MS-IL Number Double Bromine, in parts per million, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ca_ppm_MS-IL Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after ionic leach. >Cd_ppb_MS-IL Number Double Cadmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ce_ppb_MS-IL Number Double Cerium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Co_ppb_MS-IL Number Double Cobalt, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Cr_ppb_MS-IL Number Double Chromium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Cs_ppb_MS-IL Number Double Cesium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Cu_ppb_MS-IL Number Double Copper, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Dy_ppb_MS-IL Number Double Dysprosium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Er_ppb_MS-IL Number Double Erbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Eu_ppb_MS-IL Number Double Europium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Fe_ppm_MS-IL Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ga_ppb_MS-IL Number Double Gallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Gd_ppb_MS-IL Number Double Gadolinium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ge_ppb_MS-IL Number Double Germanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Hf_ppb_MS-IL Number Double Hafnium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Hg_ppb_MS-IL Number Double Mercury, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ho_ppb_MS-IL Number Double Holmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >I_ppm_MS-IL Number Double Iodine, in parts per million, by inductively coupled plasma-mass spectroscopy after ionic leach. >In_ppb_MS-IL Number Double Indium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >La_ppb_MS-IL Number Double Lanthanum, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Li_ppb_MS-IL Number Double Lithium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Lu_ppb_MS-IL Number Double Lutetium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Mg_ppm_MS-IL Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after ionic leach. >Mn_ppm_MS-IL Number Double Manganese, in parts per million, by inductively coupled plasma-mass spectroscopy after ionic leach. >Mo_ppb_MS-IL Number Double Molybdenum, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Nb_ppb_MS-IL Number Double Niobium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Nd_ppb_MS-IL Number Double Neodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ni_ppb_MS-IL Number Double Nickel, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Pb_ppb_MS-IL Number Double Lead, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Pb-206_ppb_MS-IL Number Double Lead-206, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Pb-207_ppb_MS-IL Number Double Lead-207, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Pb-208_ppb_MS-IL Number Double Lead-208, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Pd_ppb_MS-IL Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Pr_ppb_MS-IL Number Double Praseodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Rb_ppb_MS-IL Number Double Rubidium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Re_ppb_MS-IL Number Double Rhenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Sb_ppb_MS-IL Number Double Antimony, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Se_ppb_MS-IL Number Double Selenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Sm_ppb_MS-IL Number Double Samarium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Sn_ppb_MS-IL Number Double Tin, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Sr_ppb_MS-IL Number Double Strontium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ta_ppb_MS-IL Number Double Tantalum, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Tb_ppb_MS-IL Number Double Terbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Te_ppb_MS-IL Number Double Tellurium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Th_ppb_MS-IL Number Double Thorium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Ti_ppb_MS-IL Number Double Titanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Tl_ppb_MS-IL Number Double Thallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Tm_ppb_MS-IL Number Double Thulium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >U_ppb_MS-IL Number Double Uranium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >W_ppb_MS-IL Number Double Tungsten, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Y_ppb_MS-IL Number Double Yttrium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Yb_ppb_MS-IL Number Double Ytterbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Zn_ppb_MS-IL Number Double Zinc, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. >Zr_ppb_MS-IL Number Double Zirconium, in parts per billion, by inductively coupled plasma-mass spectroscopy after ionic leach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-MMILch is a table of inductively coupled plasma-mass spectroscopy mobile metal ion leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-MM Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Al_ppm_MS-MM Number Double Aluminum, in parts per million, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >As_ppb_MS-MM Number Double Arsenic, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Au_ppb_MS-MM Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Ba_ppb_MS-MM Number Double Barium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Bi_ppb_MS-MM Number Double Bismuth, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Ca_ppm_MS-MM Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Cd_ppb_MS-MM Number Double Cadmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Ce_ppb_MS-MM Number Double Cerium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Co_ppb_MS-MM Number Double Cobalt, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Cr_ppb_MS-MM Number Double Chromium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Cu_ppb_MS-MM Number Double Copper, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Dy_ppb_MS-MM Number Double Dysprosium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Er_ppb_MS-MM Number Double Erbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Eu_ppb_MS-MM Number Double Europium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Fe_ppm_MS-MM Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Gd_ppb_MS-MM Number Double Gadolinium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >La_ppb_MS-MM Number Double Lanthanum, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Li_ppb_MS-MM Number Double Lithium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Mg_ppm_MS-MM Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Mo_ppb_MS-MM Number Double Molybdenum, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Nb_ppb_MS-MM Number Double Niobium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Nd_ppb_MS-MM Number Double Neodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Ni_ppb_MS-MM Number Double Nickel, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Pb_ppb_MS-MM Number Double Lead, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Pd_ppb_MS-MM Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Pr_ppb_MS-MM Number Double Praseodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Pt_ppb_MS-MM Number Double Platinum, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Rb_ppb_MS-MM Number Double Rubidium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Sb_ppb_MS-MM Number Double Antimony, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Sc_ppb_MS-MM Number Double Scandium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Sm_ppb_MS-MM Number Double Samarium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Sn_ppb_MS-MM Number Double Tin, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Sr_ppb_MS-MM Number Double Strontium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Ta_ppb_MS-MM Number Double Tantalum, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Tb_ppb_MS-MM Number Double Terbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Te_ppb_MS-MM Number Double Tellurium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Th_ppb_MS-MM Number Double Thorium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Ti_ppb_MS-MM Number Double Titanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Tl_ppb_MS-MM Number Double Thallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >U_ppb_MS-MM Number Double Uranium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >W_ppb_MS-MM Number Double Tungsten, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Y_ppb_MS-MM Number Double Yttrium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Yb_ppb_MS-MM Number Double Ytterbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Zn_ppb_MS-MM Number Double Zinc, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. >Zr_ppb_MS-MM Number Double Zirconium, in parts per billion, by inductively coupled plasma-mass spectroscopy after mobile metal ion leach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-NaPLch is a table of inductively coupled plasma-mass spectroscopy sodium pyrophosphate leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppm_MS-SP Number Double Silver, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Al_ppm_MS-SP Number Double Aluminum, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >As_ppm_MS-SP Number Double Arsenic, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Au_ppm_MS-SP Number Double Gold, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >B_ppm_MS-SP Number Double Boron, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ba_ppm_MS-SP Number Double Barium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Be_ppm_MS-SP Number Double Beryllium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Bi_ppm_MS-SP Number Double Bismuth, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Br_ppm_MS-SP Number Double Bromine, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ca_ppm_MS-SP Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Cd_ppm_MS-SP Number Double Cadmium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ce_ppm_MS-SP Number Double Cerium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Co_ppm_MS-SP Number Double Cobalt, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Cr_ppm_MS-SP Number Double Chromium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Cs_ppm_MS-SP Number Double Cesium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Cu_ppm_MS-SP Number Double Copper, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Dy_ppm_MS-SP Number Double Dysprosium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Er_ppm_MS-SP Number Double Erbium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Eu_ppm_MS-SP Number Double Europium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Fe_ppm_MS-SP Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ga_ppm_MS-SP Number Double Gallium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Gd_ppm_MS-SP Number Double Gadolinium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ge_ppm_MS-SP Number Double Germanium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Hf_ppm_MS-SP Number Double Hafnium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Hg_ppm_MS-SP Number Double Mercury, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ho_ppm_MS-SP Number Double Holmium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >I_ppm_MS-SP Number Double Iodine, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >In_ppm_MS-SP Number Double Indium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >K_ppm_MS-SP Number Double Potassium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >La_ppm_MS-SP Number Double Lanthanum, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Li_ppm_MS-SP Number Double Lithium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Lu_ppm_MS-SP Number Double Lutetium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Mg_ppm_MS-SP Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Mn_ppm_MS-SP Number Double Manganese, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Mo_ppm_MS-SP Number Double Molybdenum, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Nb_ppm_MS-SP Number Double Niobium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Nd_ppm_MS-SP Number Double Neodymium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ni_ppm_MS-SP Number Double Nickel, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Pb_ppm_MS-SP Number Double Lead, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Pr_ppm_MS-SP Number Double Praseodymium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Rb_ppm_MS-SP Number Double Rubidium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Re_ppm_MS-SP Number Double Rhenium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Sb_ppm_MS-SP Number Double Antimony, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Se_ppm_MS-SP Number Double Selenium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Sm_ppm_MS-SP Number Double Samarium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Sn_ppm_MS-SP Number Double Tin, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Sr_ppm_MS-SP Number Double Strontium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ta_ppm_MS-SP Number Double Tantalum, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Tb_ppm_MS-SP Number Double Terbium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Te_ppm_MS-SP Number Double Tellurium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Th_ppm_MS-SP Number Double Thorium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Ti_ppm_MS-SP Number Double Titanium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Tl_ppm_MS-SP Number Double Thallium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Tm_ppm_MS-SP Number Double Thulium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >U_ppm_MS-SP Number Double Uranium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >V_ppm_MS-SP Number Double Vanadium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >W_ppm_MS-SP Number Double Tungsten, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Y_ppm_MS-SP Number Double Yttrium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Yb_ppm_MS-SP Number Double Ytterbium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Zn_ppm_MS-SP Number Double Zinc, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. >Zr_ppm_MS-SP Number Double Zirconium, in parts per million, by inductively coupled plasma-mass spectroscopy after sodium pyrophosphate leach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_ICPMS-TSLch is a table of inductively coupled plasma-mass spectroscopy TerraSol leach chemical data from soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >LAB_ID Text 10 Number assigned by analytical lab, from LIMS. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-TL Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Al_ppm_MS-TL Number Double Aluminum, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >As_ppb_MS-TL Number Double Arsenic, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Au_ppb_MS-TL Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ba_ppb_MS-TL Number Double Barium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Be_ppb_MS-TL Number Double Beryllium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Bi_ppb_MS-TL Number Double Bismuth, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ca_ppm_MS-TL Number Double Calcium, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Cd_ppb_MS-TL Number Double Cadmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ce_ppb_MS-TL Number Double Cerium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Cl_ppb_MS-TL Number Double Chlorine, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Co_ppb_MS-TL Number Double Cobalt, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Cr_ppb_MS-TL Number Double Chromium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Cs_ppb_MS-TL Number Double Cesium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Cu_ppb_MS-TL Number Double Copper, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Dy_ppb_MS-TL Number Double Dysprosium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Er_ppb_MS-TL Number Double Erbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Eu_ppb_MS-TL Number Double Europium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Fe_ppm_MS-TL Number Double Iron, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ga_ppb_MS-TL Number Double Gallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Gd_ppb_MS-TL Number Double Gadolinium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ge_ppb_MS-TL Number Double Germanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Hf_ppb_MS-TL Number Double Hafnium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Hg_ppb_MS-TL Number Double Mercury, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ho_ppb_MS-TL Number Double Holmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >In_ppb_MS-TL Number Double Indium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ir_ppb_MS-TL Number Double Iridium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >K_ppm_MS-TL Number Double Potassium, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >La_ppb_MS-TL Number Double Lanthanum, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Li_ppb_MS-TL Number Double Lithium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Lu_ppb_MS-TL Number Double Lutetium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Mg_ppm_MS-TL Number Double Magnesium, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Mn_ppb_MS-TL Number Double Manganese, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Mo_ppb_MS-TL Number Double Molybdenum, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Na_ppm_MS-TL Number Double Sodium, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Nb_ppb_MS-TL Number Double Niobium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Nd_ppb_MS-TL Number Double Neodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ni_ppb_MS-TL Number Double Nickel, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Os_ppb_MS-TL Number Double Osmium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Pb_ppb_MS-TL Number Double Lead, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Pd_ppb_MS-TL Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Pr_ppb_MS-TL Number Double Praseodymium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Pt_ppb_MS-TL Number Double Platinum, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Rb_ppb_MS-TL Number Double Rubidium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Re_ppb_MS-TL Number Double Rhenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Rh_ppb_MS-TL Number Double Rhodium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ru_ppb_MS-TL Number Double Ruthenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >S_ppm_MS-TL Number Double Sulfur, in parts per million, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Sb_ppb_MS-TL Number Double Antimony, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Sc_ppb_MS-TL Number Double Scandium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Se_ppb_MS-TL Number Double Selenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Sm_ppb_MS-TL Number Double Samarium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Sn_ppb_MS-TL Number Double Tin, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Sr_ppb_MS-TL Number Double Strontium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ta_ppb_MS-TL Number Double Tantalum, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Te_ppb_MS-TL Number Double Tellurium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Th_ppb_MS-TL Number Double Thorium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Ti_ppb_MS-TL Number Double Titanium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Tl_ppb_MS-TL Number Double Thallium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Tm_ppb_MS-TL Number Double Thulium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >U_ppb_MS-TL Number Double Uranium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >V_ppb_MS-TL Number Double Vanadium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >W_ppb_MS-TL Number Double Tungsten, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Y_ppb_MS-TL Number Double Yttrium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Yb_ppb_MS-TL Number Double Ytterbium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Zn_ppb_MS-TL Number Double Zinc, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. >Zr_ppb_MS-TL Number Double Zirconium, in parts per billion, by inductively coupled plasma-mass spectroscopy after TerraSol leach. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Soil_pH-SpCond is a table of pH and conductance data for soil samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >pH-paste_SI_ISE Number Double pH of paste, in standard units, by digital pH meter in the lab. >SpCon-paste_uS/cm_Instr Number Double Specific conductivity of paste, in micro-Siemens per centimeter, by conductivity meter. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Veg_ICPMS-AR is a table of inductively coupled plasma-mass spectroscopy aqua regia leach chemical data from vegetation samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-AR Number Double Silver, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Al_pct_MS-AR Number Double Aluminum, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >As_ppm_MS-AR Number Double Arsenic, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Au_ppb_MS-AR Number Double Gold, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >B_ppm_MS-AR Number Double Boron, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ba_ppm_MS-AR Number Double Barium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Be_ppm_MS-AR Number Double Beryllium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Bi_ppm_MS-AR Number Double Bismuth, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ca_pct_MS-AR Number Double Calcium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cd_ppm_MS-AR Number Double Cadmium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ce_ppm_MS-AR Number Double Cerium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Co_ppm_MS-AR Number Double Cobalt, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cr_ppm_MS-AR Number Double Chromium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cs_ppm_MS-AR Number Double Cesium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cu_ppm_MS-AR Number Double Copper, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Fe_pct_MS-AR Number Double Iron, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ga_ppm_MS-AR Number Double Gallium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ge_ppm_MS-AR Number Double Germanium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Hf_ppm_MS-AR Number Double Hafnium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Hg_ppb_MS-AR Number Double Mercury, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >In_ppm_MS-AR Number Double Indium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >K_pct_MS-AR Number Double Potassium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >La_ppm_MS-AR Number Double Lanthanum, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Li_ppm_MS-AR Number Double Lithium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mg_pct_MS-AR Number Double Magnesium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mn_ppm_MS-AR Number Double Manganese, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mo_ppm_MS-AR Number Double Molybdenum, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Na_pct_MS-AR Number Double Sodium, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Nb_ppm_MS-AR Number Double Niobium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ni_ppm_MS-AR Number Double Nickel, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >P_pct_MS-AR Number Double Phosphorus, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pb_ppm_MS-AR Number Double Lead, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pd_ppb_MS-AR Number Double Palladium, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pt_ppb_MS-AR Number Double Platinum, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Rb_ppm_MS-AR Number Double Rubidium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Re_ppb_MS-AR Number Double Rhenium, in parts per billion, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >S_pct_MS-AR Number Double Sulfur, in weight percent, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sb_ppm_MS-AR Number Double Antimony, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sc_ppm_MS-AR Number Double Scandium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Se_ppm_MS-AR Number Double Selenium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sn_ppm_MS-AR Number Double Tin, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sr_ppm_MS-AR Number Double Strontium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ta_ppm_MS-AR Number Double Tantalum, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Te_ppm_MS-AR Number Double Tellurium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Th_ppm_MS-AR Number Double Thorium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ti_ppm_MS-AR Number Double Titanium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Tl_ppm_MS-AR Number Double Thallium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >U_ppm_MS-AR Number Double Uranium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >V_ppm_MS-AR Number Double Vanadium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >W_ppm_MS-AR Number Double Tungsten, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Y_ppm_MS-AR Number Double Yttrium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Zn_ppm_MS-AR Number Double Zinc, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Zr_ppm_MS-AR Number Double Zirconium, in parts per million, by inductively coupled plasma-mass spectroscopy after aqua regia digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Overview_Description: Entity_and_Attribute_Overview: The table Veg_ICPMS-HR-AR is a table of high resolution inductively coupled plasma-mass spectroscopy aqua regia leach chemical data from vegetation samples collected and analyzed for the Pebble project. >FieldName FieldType FieldSize-Format FieldDescript > >SampleID Number Long Integer Unique sample identifier. >SampleNumber Text 20 Sample number provided by submitter. >FieldSiteNumber Text 15 Unique field site ID assigned by scientist in the field. >JOB_ID Text 20 Job or lot number assigned by analytical lab, from LIMS. >FieldLatitude_DD Number Decimal Latitude from field, in decimal degrees. >FieldLongitude_DD Number Decimal Longitude from field, in decimal degrees. >LabShortName Text 15 Short name of laboratory that performed analysis. >QA-QC Text 50 Quality assurance and quality control information regarding sample. >SampleAnalyzed Text 100 Description of actual sample analyzed. >Ag_ppb_MS-HR-AR Number Double Silver, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >As_ppb_MS-HR-AR Number Double Arsenic, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Au_ppb_MS-HR-AR Number Double Gold, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >B_ppb_MS-HR-AR Number Double Boron, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ba_ppm_MS-HR-AR Number Double Barium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Be_ppb_MS-HR-AR Number Double Beryllium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Bi_ppb_MS-HR-AR Number Double Bismuth, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ca_ppm_MS-HR-AR Number Double Calcium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cd_ppb_MS-HR-AR Number Double Cadmium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ce_ppb_MS-HR-AR Number Double Cerium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Co_ppb_MS-HR-AR Number Double Cobalt, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cr_ppb_MS-HR-AR Number Double Chromium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cs_ppb_MS-HR-AR Number Double Cesium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Cu_ppb_MS-HR-AR Number Double Copper, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Dy_ppb_MS-HR-AR Number Double Dysprosium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Er_ppb_MS-HR-AR Number Double Erbium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Eu_ppb_MS-HR-AR Number Double Europium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Fe_ppm_MS-HR-AR Number Double Iron, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ga_ppb_MS-HR-AR Number Double Gallium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Gd_ppb_MS-HR-AR Number Double Gadolinium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ge_ppm_MS-HR-AR Number Double Germanium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Hf_ppb_MS-HR-AR Number Double Hafnium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Hg_ppb_MS-HR-AR Number Double Mercury, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ho_ppb_MS-HR-AR Number Double Holmium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >In_ppb_MS-HR-AR Number Double Indium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >K_ppm_MS-HR-AR Number Double Potassium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >La_ppb_MS-HR-AR Number Double Lanthanum, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Li_ppb_MS-HR-AR Number Double Lithium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Lu_ppb_MS-HR-AR Number Double Lutetium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mg_ppm_MS-HR-AR Number Double Magnesium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mn_ppb_MS-HR-AR Number Double Manganese, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Mo_ppb_MS-HR-AR Number Double Molybdenum, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Na_ppm_MS-HR-AR Number Double Sodium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Nb_ppb_MS-HR-AR Number Double Niobium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Nd_ppb_MS-HR-AR Number Double Neodymium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ni_ppm_MS-HR-AR Number Double Nickel, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pb_ppb_MS-HR-AR Number Double Lead, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Pr_ppb_MS-HR-AR Number Double Praseodymium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Rb_ppb_MS-HR-AR Number Double Rubidium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Re_ppb_MS-HR-AR Number Double Rhenium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sb_ppb_MS-HR-AR Number Double Antimony, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sc_ppb_MS-HR-AR Number Double Scandium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Se_ppm_MS-HR-AR Number Double Selenium, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sm_ppb_MS-HR-AR Number Double Samarium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sn_ppb_MS-HR-AR Number Double Tin, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Sr_ppb_MS-HR-AR Number Double Strontium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ta_ppb_MS-HR-AR Number Double Tantalum, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Tb_ppb_MS-HR-AR Number Double Terbium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Te_ppb_MS-HR-AR Number Double Tellurium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Th_ppb_MS-HR-AR Number Double Thorium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Ti_ppb_MS-HR-AR Number Double Titanium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Tl_ppb_MS-HR-AR Number Double Thallium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Tm_ppb_MS-HR-AR Number Double Thulium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >U_ppb_MS-HR-AR Number Double Uranium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >V_ppb_MS-HR-AR Number Double Vanadium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >W_ppb_MS-HR-AR Number Double Tungsten, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Y_ppb_MS-HR-AR Number Double Yttrium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Yb_ppb_MS-HR-AR Number Double Ytterbium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Zn_ppm_MS-HR-AR Number Double Zinc, in parts per million, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. >Zr_ppb_MS-HR-AR Number Double Zirconium, in parts per billion, by high resolution inductively coupled plasma-mass spectroscopy after aqua regia digestion. Entity_and_Attribute_Detail_Citation: database designer/metadata author Matthew Granitto; see Data_Quality_Information/Lineage/Process_Step/Process_Contact/Contact_Information. Distribution_Information: Distributor: Contact_Information: Contact_Person_Primary: Contact_Person: Matthew Granitto Contact_Organization: U.S. Geological Survey Contact_Address: Address_Type: mailing and physical address Address: Box 25046; Denver Federal Center, MS 973 City: Denver State_or_Province: Colorado Postal_Code: 80225 Country: United States of America Contact_Voice_Telephone: 1-303-236-1412 Contact_Facsimile_Telephone: 1-303-236-3200 Contact_Electronic_Mail_Address: granitto@usgs.gov Distribution_Liability: These data are released on the condition that neither the U.S. Geological Survey (USGS) nor the United States Government may be held liable for any damages resulting from authorized or unauthorized use. The USGS makes no warranties, either expressed or implied as to any other matter, whatsoever, including, without limitation, the condition of the product, or its fitness for any particular purpose. The burden for determining fitness for use lies entirely with the user. Standard_Order_Process: Digital_Form: Digital_Transfer_Information: Format_Name: Microsoft Access (.mdb), Microsoft Excel (.xls), and ascii tab delimited (.tab) Format_Information_Content: geochemical sample locations and analyses File_Decompression_Technique: no compression applied Digital_Transfer_Option: Online_Option: Computer_Contact_Information: Network_Address: Network_Resource_Name: none at this time Access_Instructions: The primary format used to deliver the dataset found in U.S. Geological Survey, 2011, Geochemical Data for Samples Collected in 2007-2010 Near the Concealed Pebble Porphyry Cu-Au-Mo Deposit, Southwest Alaska: USGS Data Series 608 is Microsoft Access. This dataset was created in two other formats in order to facilitate wider usage for users who may prefer formats other than Access. Strong attempts were made to avoid inevitable data corruption caused by the reformatting of this dataset into other formats. These data are released on the condition that neither the U.S. Geological Survey (USGS) nor the United States Government may be held liable for any damages resulting from authorized or unauthorized use. The dataset in .mdb form may be accessed using Microsoft Access 2000, 2002, 2003 or 2007. The Pebble deposit database (USGSPebbleDeposit.mdb) contains twelve relational datasets. These datasets comprise all of the data collected as part of the study and all of the data discussed in this report. From these datasets, 33 analytical data tables were created of various sections of data. These 33 derivative tables each represent a unique dataset containing analytical data gathered through the analysis of specific sample media and determined by certain analytic methods (media/method specific datasets). Though this is a certain advantage to the "flatfile" or spreadsheet user, it must be stressed that the parameters and criteria for these datasets were chosen by the database designer and may not meet the specific requirements of the spreadsheet user for geospatial modeling. A table of data field name definitions was also created from the data sets. The database includes 178,602 results for 1,796 soil subsamples, 1,305 water subsamples, 224 pond and stream sediment samples, 142 vegetation subsamples, and 11 rock samples. These entries contain quantitative, qualitative, or descriptive measurements. Data definition is provided through the use of 409 unique parameters, or measurement types. The database also includes indicator mineralogy data for heavy mineral concentrate fractions of 70 till-sediment samples and 20 stream-sediment samples, as well as data for 467 gold grains separated from heavy mineral concentrate fractions. The dataset in .xls form may be accessed using Microsoft Excel 2000, 2002, 2003 or 2007. Most of the Access datasets in the Pebble deposit database were exported into Excel as 42 spreadsheets for use by the non-database user so that all of the data is presented in Excel spreadsheet format. From these Access datasets, 33 analytical data tables were created of various sections of data. These 33 derivative tables each represent a unique dataset containing analytical data gathered through the analysis of specific sample media and determined by certain analytic methods (media/method specific datasets). These 33 analytical data tables were reformatted as Excel spreadsheets. Though this is a certain advantage to the spreadsheet user, it must be stressed that the parameters and criteria for these datasets were chosen by the database designer and may not meet the specific requirements of the spreadsheet user for geospatial modeling. The intended relationships between the spreadsheets and their fields (columns) can be best understood by consulting Figure 3. Table relationships in the Pebble deposit database, found in U.S. Geological Survey, 2011, Geochemical Data for Samples Collected in 2007-2010 Near the Concealed Pebble Porphyry Cu-Au-Mo Deposit, Southwest Alaska: USGS Data Series 608. The dataset in ASCII flatfile form may be accessed using any text editor, but is best used by loading each flatfile into a relational database and re-establishing the links as shown in Figure 3. Table relationships in the Near Surface Processes database, found in U.S. Geological Survey, 2011, Geochemical Data for Samples Collected in 2007-2010 Near the Concealed Pebble Porphyry Cu-Au-Mo Deposit, Southwest Alaska: USGS Data Series 608. Fees: none Metadata_Reference_Information: Metadata_Date: 20091214 Metadata_Contact: Contact_Information: Contact_Person_Primary: Contact_Person: Matthew Granitto Contact_Organization: U.S. Geological Survey Contact_Address: Address_Type: mailing and physical address Address: Box 25046, Denver Federal Center, MS 973 City: Denver State_or_Province: Colorado Postal_Code: 80225 Country: United States of America Contact_Voice_Telephone: 1-303-236-1412 Contact_Facsimile_Telephone: 1-303-236-3200 Contact_Electronic_Mail_Address: granitto@usgs.gov Metadata_Standard_Name: FGDC Content Standards for Digital Geospatial Metadata Metadata_Standard_Version: FGDC-STD-001-1998 Metadata_Access_Constraints: none Metadata_Use_Constraints: none