OFR 97-492: Newark Quadrangle NURE HSSR Study

  About USGS /  Science Topics /  Maps, Products & Publications /  Education / Publication: FAQ

 

National Geochemical Database—Reformatted Data from the National Uranium Resource Evaluation (NURE) Hydrogeochemical and Stream Sediment Reconnaissance (HSSR) Program

By Steven M. Smith
Version 1.40 (2006)

Brief History and Description of Data

[See History of NURE HSSR Program for a summary of the entire program.]

New Jersey
Subcontractors for the Savannah River Laboratory (SRL) collected at least 748 stream-sediment, 378 surface-water, and 1,038 ground-water samples within 21 counties from New Jersey as part of the NURE Hydrogeochemical and Stream Sediment Reconnaissance (HSSR) program. The sediment samples were collected during August - November 1977 and June 1978, and water samples were collected during July - October 1977 and January - February 1978. Sample coverage included portions of the New York, Newark, Salisbury, Scranton, and Wilmington 1:250,000-scale quadrangles. (A total of 284 stream-sediment, 277 stream-water, and 615 ground-water samples were collected within the Newark quadrangle.) These samples were sent to SRL for analysis of uranium and additional elements (16 in sediments and 9 in waters). SRL was able to analyze 728 sediments and 1,414 waters from New Jersey; this includes 273 sediment and 890 water samples from the Newark quadrangle. The analytical and site location data for all New Jersey samples were released in the Pennsylvania, New Jersey, and New York Data Report [GJBX-106(82)].

SRL sent 550 sediment samples from New Jersey to an unnamed contract laboratory for "Supplemental Analyses." Supplemental analytical determinations for up to 23 elements were reported for 542 of these samples in the Pennsylvania, New Jersey, and New York Data Report [GJBX-106(82)]. The digital data file accompanying this report includes Supplemental Analyses for 268 New Jersey sediment samples within the Newark quadrangle. (Five supplemental sample records from the Newark quadrangle were listed twice in the GJBX-106(82) data report. The second record for each of these affected records had no analytical data.)

Pennsylvania
Subcontractors for the Savannah River Laboratory (SRL) collected at least 4,499 stream-sediment, 4,401 surface-water, and 5,734 ground-water samples within 49 counties from Pennsylvania as part of the NURE Hydrogeochemical and Stream Sediment Reconnaissance (HSSR) program. The sediment samples were collected during September - October 1976; July - December 1977; and July - August 1978, and water samples were collected during May - December 1977 and July - August 1978. Sample coverage included portions of the Baltimore, Canton, Clarksburg, Cleveland, Cumberland, Elmira, Harrisburg, Newark, Pittsburgh, Scranton, Warren, Williamsport, and Wilmington 1:250,000-scale quadrangles. (A total of 571 stream-sediment, 571 surface-water, and 605 ground-water samples were collected within the Newark quadrangle.) These samples were sent to SRL for analysis of uranium and additional elements (16 in sediments and 9 in waters). SRL was able to analyze 4,287 sediments and 10,100 waters from Pennsylvania; this includes 570 sediment and 1,174 water samples from the Newark quadrangle. The analytical and site location data for all Pennsylvania samples were released in the Pennsylvania, New Jersey, and New York Data Report [GJBX-106(82)].

SRL sent 3,851 sediment samples from Pennsylvania to an unnamed contract laboratory for "Supplemental Analyses." Supplemental analytical determinations for up to 23 elements were reported for 3,842 of these samples in the Pennsylvania, New Jersey, and New York Data Report [GJBX-106(82)]. The digital data file accompanying this report include Supplemental Analyses records for 568 Pennsylvania sediment samples within the Newark quadrangle. (Note: Four of these stream-sediment sample records did not actually have any supplemental analysis data.)

SRL: Newark Quadrangle
SRL released a separate quadrangle report for the Newark NTMS quadrangle, which includes data for 834 stream-sediment, 838 surface-water, and 1,217 ground-water samples. With minor differences, these sample data are the same as that for corresponding samples found in the New Jersey and Pennsylvania State files. SRL released the analytical data as the Newark Quadrangle GJBX-128(80) Data Release. The site coding information for this data set is summarized within the text of this report.

SRL released a separate report for supplemental analyses of 834 sediment samples from the Newark quadrangle as the Newark NTMS Area, Supplemental Data Report [GJBX-71(81)]. Supplemental analytical determinations for up to 19 elements were reported for 828 of these 834 sediment samples. (Six of these Newark sediment sample records did not actually have any supplemental analysis data).

Gold Analyses
Data for gold analyses of sediments by SRL neutron activation were released in the GJBX-135(82) summary report. The introduction of that report states:

"This report contains previously unreported neutron-activation analyses of gold in sediment samples determined at SRL. These data were not included in the standard SRL NURE data reports because the gold spectrum was not measured in the original analytical procedure and the report format was designed without the gold analyses being included. Gold analyses became available as the analytical procedure was refined, but the report format was not modified to incorporate these data."

Only those sediment samples that had detectable concentrations of gold by neutron activation analysis were given in the GJBX-135(82) report. Sediment samples with concentrations below detection limits were not reported and can only be ascertained by identifying which samples were actually analyzed by neutron activation at SRL.

Summary Tables
Because of the various laboratories and analytical methods used, some SRL samples may have been analyzed once, twice, or not at all. The following table summarizes the analysis of Newark quadrangle samples.

Combination of laboratories that analyzed samples for the Newark quadrangle.
Laboratory Analysis Sediments Waters
Only SRL 23 2,064
Only Supplemental Lab 12 0
Both SRL and Supplemental Labs 820 0
Second SRL analysis on sample 6 0
Second Supplemental analysis on sample 1 0
None 0 4
Total Samples 855 2,068
Total Data Records 862 2,068

The following is a list of all sample types collected and reported for NURE studies in the Newark quadrangle.

Summary of Newark quadrangle sample types.
Sediment Sample Type Number of Samples Water Sample Type Number of Samples
Wet Streams 855 Streams 848
    Wells 1,138
    Springs 82
Total Sediments 855 Total Waters 2,068

These Newark quadrangle samples were analyzed by one or more of the following methods:

Sediment Samples

Water Samples



Discussion of the Reformatting Process for Newark Quadrangle

Sediment Records
The Newark quadrangle sediment data consist of reformatted records from the Newark Quadrangle GJBX-128(80) Data Report. These records were compared with corresponding sample records from the New Jersey and Pennsylvania portions of the Pennsylvania, New Jersey, and New York [GJBX-106(82)] Data Report. The following problems were found and addressed during the comparison and reformatting stages for the Newark quadrangle sediment data:

  1. For 7 records, Newark quadrangle Neutron Activation Analytical values were significantly different from those found in the corresponding records from the New Jersey and Pennsylvania State files and appear to represent a separate analytical determination. For all of these affected records, the differences between Newark quadrangle files and New Jersey and Pennsylvania State files required the creation of two separate records for each sample to preserve all the data.
  2. The analytical values for many U, Ce, Dy, Fe, Lu, and V determinations differed slightly between the Newark quadrangle files and the New Jersey and Pennsylvania State files. These variations are apparently due only to differences in rounding versus truncation of reported values or to differences in the number of recorded significant digits. Since the variation was insignificant, only one set of the values was retained for the affected elements.
  3. For some records, analytical values for Al, Ce, Dy, Eu, Hf, Fe, La, Lu, Mn, Na, Sc, Sm, Th, Ti, V, and Yb were found in the New Jersey and Pennsylvania State files but were missing in the corresponding records from the Newark quadrangle files. These values were added and that change was noted for each affected record in the REFORMAT comment field.
  4. For some records, analytical values for Al, Dy, Eu, Ti, and Yb were found in the Newark quadrangle files but were missing in the corresponding records from the New Jersey and Pennsylvania State files. These missing values were noted for each affected record in the REFORMAT comment field.
  5. The date on which a sample was analyzed by Neutron Activation Analysis was only recorded in the State digital data files from the New Jersey and Pennsylvania [GJBX-106(82)] Data Report. This information was added to each of combined sediment data records.
  6. During reformatting, contamination codes for "residential" and "recreation" were found to be missing from each State's CONTAMC field. The presence of one of these two codes was indicated only by a "." (period). Most, but not all of these contamination codes were present in the original quadrangle file. When possible, the missing contamination codes were replaced, otherwise the missing codes were assigned a value of "unknown" in the CONTAMC field within the final sediment data file.
  7. Nine stream sediment samples from Warren County, New Jersey with SRLID values of NJWA001S1 to NJWA009S1 were analyzed by SRL Neutron Activation Analysis (NAA) but did not have corresponding Supplemental Analyses. However, nine additional sample records with SRLID values of NJWA101S1 to NJWA109S1 had Supplemental Analyses but no corresponding SRL NAA data. It is probable that these two sets of records actually represent only 9 original samples analyzed by both the SRL Laboratory and the Supplemental Laboratory and that the SRLID values for one set are in error. This solution is also suggested by the fact that the latitude and longitude coordinates for these 2 sets of records match (i.e. Coordinates for NJWA001S1 are the same as NJWA101S1 and so on for each of the 9 pairs). Since the correct SRLID values could not be determined, all 18 records were preserved. A comment was added to the REFORMAT field for each of these records.
  8. The latitude and longitude coordinates for 6 stream-sediment samples collected within Middlesex(1), Monmouth(2), and Morris(1) Counties in New Jersey; and Chester(2) County in Pennsylvania were not found in the data during the reformatting process. The records for these 6 samples cannot be retrieved on a geographical basis.
  9. Gold concentrations from the GJBX-135(82) report were added to the appropriate sediment records. A value of -0.01 (<0.01 ppm Au) was added to all other sediment samples determined to have been analyzed by SRL neutron activation. This value was chosen because 0.01 ppm is the lowest reported gold concentration in the entire report.

Water Records
The Newark quadrangle water data consist of reformatted records from the Newark Quadrangle GJBX-128(80) Data Report. These records were compared with corresponding sample records from the New Jersey and Pennsylvania portions of the Pennsylvania, New Jersey, and New York [GJBX-106(82)] Data Report. The following problems were found and addressed during the comparison and reformatting stages for the Newark quadrangle water data:

  1. Four additional surface-water samples from the Newark quadrangle not included in the original New Jersey digital data file were found in the New Jersey data tables on microfiche that accompany the Pennsylvania, New Jersey, and New York GJBX-106(82) Data Report. These sample records were entered manually from the report.
  2. The analytical values for many Al, Br, Dy, and Mn determinations differed slightly between the Newark quadrangle files and the New Jersey and Pennsylvania State files. These variations are apparently due only to differences in rounding versus truncation of reported values or to differences in the number of recorded significant digits. Since the variation was insignificant, only one set of the values was retained for the affected elements.
  3. For some records, analytical values for Br and Mg were found in the New Jersey and Pennsylvania State files but were missing in the corresponding records from the Newark quadrangle files. These values were added and that change was noted for each affected record in the REFORMAT comment field.
  4. The original NURE format for surface-water files did not include much information about the character of the sample location. This missing information includes observations taken at each site on the stream width, depth, and flow, water color, surrounding vegetation, local relief, weather, and possible contaminants. This information is given in records for stream-sediment samples that were collected at the same locations. The available site descriptive information for stream-water sites were compared with the corresponding stream-sediment site records. The missing site descriptive data were then added to stream-water records from the corresponding stream-sediment sample records. Sources of data and any problems found are described in the REFORMAT comment field.
  5. During reformatting, contamination codes for "residential" and "recreation" were found to be missing from each State's CONTAMC field. The presence of one of these two codes was indicated only by a "." (period). Most, but not all of these contamination codes were present in the original quadrangle file. When possible, the missing contamination codes were replaced, otherwise the missing codes were assigned a value of "unknown" in the CONTAMC field within the final sediment data file.
  6. An unlikely sample collection date was found for one sample. This date was removed from the SAMPDAT field and the original SAMPDAT value with the most likely correct value was added as a comment to the REFORMAT field.
  7. Two ground-water samples were identified with a SRLID in the 700's. All of these samples were missing latitude and longitude coordinates. Evidence from original sample site field notes strongly suggests that these are duplicate samples collected later from a previously sampled 500's series site (i.e. SRLID site number ABCD718R is the same location as ABCD518R). The coordinates from the original 500's series sites were added to the matching 700's records and this change was noted in the REFORMAT and COORDPRB comment fields.
  8. An analysis of latitude-longitude site coordinates identified several ground-water samples that were missing coordinates, did not plot within expected state, county, or map boundaries, or had differing coordinates in corresponding records. To correct or confirm sample coordinates, the original field collection maps for Mercer, Passaic, Somerset, and Sussex Counties, New Jersey; and Luzerne and Monroe Counties, Pennsylvania were obtained and re-digitized. The newly re-digitized coordinates were added to the database and the coordinates from the original file(s) were recorded in the COORDPRB comment field. When the newly re-digitized coordinates were not significantly different, that confirmation of the site location was also noted in the COORDPRB comment field.
  9. After re-digitizing, one well water sample from Sussex County, New Jersey originally located in the Newark quadrangle now plots in the adjacent Scranton quadrangle.
  10. The latitude and longitude coordinates for 8 water samples collected within Hudson(1), Middlesex(1), Monmouth(2), Morris(1), and Union(1) Counties in New Jersey; and Chester(2) Counties in Pennsylvania were not found in the data during the reformatting process. The records for these 8 samples cannot be retrieved on a geographical basis.


Download The Data

The NURE HSSR data are now available online in two databases: The sediment database (also includes data for soils and some rocks) at http://tin.er.usgs.gov/nure/sediment/ and the water database at http://tin.er.usgs.gov/nure/water/. From these two web sites, NURE HSSR data can be selected, examined, summarized, and downloaded by political boundaries (State and County), by quadrangle (1:250,000-scale, 1:100,000-scale, and 1:63,360-scale for Alaska or 1:24,000-scale for the Lower 48 States), and by hydrologic unit (drainage region, subregion, river basin, or sub-basin). Selected data can be downloaded as a dBase file, a shapefile, an HTML table, or ASCII text (tab- or comma-delimited).

Newark Quadrangle Sediment Data - 856 records
Newark Quadrangle Water Data - 2,060 records



Notes for Data Users

In the eastern United States, SRL collected samples primarily by county. Often, not all counties within a quadrangle were completely sampled. Sample coverage in the Newark quadrangle is almost complete except for some of the major metropolitan areas. Stream sediments, stream waters, and ground waters were collected from Burlington, Hunterdon, Mercer, Middlesex, Monmouth, Morris, Ocean, Somerset, and Warren Counties in New Jersey; and from Berks, Bucks, Carbon, Chester, Delaware, Lancaster, Lehigh, Monroe, Montgomery, Northampton, and Schuylkill Counties in Pennsylvania. Only ground water samples were collected from the Newark quadrangle portions of Bergen, Essex, Hudson, Passaic, Sussex, Union Counties in New Jersey; and Luzerne County in Pennsylvania. No samples were collected from the New York portion of the Newark quadrangle. The laboratory and analytical methods used also may vary by county such that adjacent counties often have very different analytical coverage.

Four water samples within the Newark quadrangle were not analyzed by any of the various laboratories. The following table summarizes the locations of this unanalyzed sample.

General locations of unanalyzed samples.
State County Unanalyzed Samples Total Samples
New Jersey Burlington 1 36
New Jersey Warren 1 102
Pennsylvania Carbon 1 129
Pennsylvania Monroe 1 65




Other NURE Geochemical Data for the Newark Quadrangle

Newark Quadrangle NURE Summary
A summary evaluation report was prepared for the Newark quadrangle by the Bendix Field Engineering Corporation [PGJ/F-123(82)]. An additional 182 rock samples were collected from the quadrangle and analyzed for uranium and 35 other elements. These data were released only as appendices on microfiche accompanying the summary report.

Geochemistry of Uranium & Thorium in Mineralized Shales and Sandstones
The Pennsylvania State University undertook a study of the geochemistry of uranium and thorium in shales and sandstones from the Catskill Formation in Pennsylvania and the Morrison and adjoining formations in the Uravan mineral belt of Colorado [GJBX-126(80)]. The objectives of this project were to investigate the following questions:

  1. Are sandstone-type uranium deposits accompanied by regional uranium anomalies in the host sediments?
  2. What are the relations of uranium to thorium and other major and trace elements in sedimentary rocks, and how can these relations be used to improve methods for identifying uranium anomalies?
  3. Are the ground-water conduits through which U was transported to sandstone-type uranium ore bodies enriched or depleted in uranium?
  4. Is the U and Th content of zircons and other resistant accessory minerals a useful guide to uranium provinces in sedimentary rocks?

A total of 371 rock samples were collected from 6 uranium occurrences within Pennsylvania (Harrisburg and Newark quadrangles) and 102 rock samples were collected from 7 uranium occurrences in the Uravan mineral belt of Colorado (Cortez and Moab quadrangles). The results of analyses for major element oxides plus Ba, Cr, La, Sr, Sm, Th, U, V, and equivalent U are recorded as appendices within the report.



Newark Quadrangle NURE Bibliography



Links Within Open-File Report 97-492

Back to New Jersey NURE data
Back to Pennsylvania NURE data
Back to New York NURE data
Frequently Asked Questions Concerning NURE Data
Home Page: USGS National Geochemical Database - NURE HSSR data



Page written by Bryan G. Moravec and Steven M. Smith.
Contact: Steven M. Smith (smsmith@usgs.gov)
Version 1.41: February 23, 2006

USA.gov logo