Scour and fill in a stream channel, East Fork River, western Wyoming
Edmund D. Andrews
1979, Professional Paper 1117
Frequent soundings of 11 cross sections located on the East Fork River, western Wyoming, during a spring flood revealed two sequences of channel scour and fill. All sections either scoured or filled at the flood crests relative to their low flow condition. The sections which scoured at high flow (called...
Coal resources of the Heliotrope Mountain Quadrangle, Sanpete and Sevier counties, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-1006
Coal resources of the Hilgard Mountain Quadrangle, Sevier County, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-1014
Coal resources of the Joes Valley Reservoir Quadrangle, Sanpete and Emery Counties, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-1002
Coal resources of the Matts Summit quadrangle: Carbon, Duchesne, and Utah Counties, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-151
No abstract available....
Coal resources of the Minnie Maud Creek East Quadrangle, Carbon and Duchesne counties, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-488
Coal resources of the northwest quarter of the Woodside 15-minute quadrangle, Emery and Carbon Counties, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-896
No abstract available....
Coal resources of the southeast quarter of the Range Creek 15-minute Quadrangle, Emery and Grand Counties, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-1017
Coal resources of the southwest quarter of the Range Creek 15-minute Quadrangle, Emery County, Utah
AAA Engineering and Drafting Inc.
1979, Open-File Report 79-1016
The Alaskan Mineral Resource Assessment Program: Background information to accompany folio of geologic and mineral resource maps of the Talkeetna quadrangle, Alaska
Bruce L. Reed, G.C. Curtin, Andrew Griscom, S.W. Nelson, D.A. Singer, W. C. Steele
1979, Circular 775
The Talkeetna 1° by 3° quadrangle, which consists of about 17,155 km2 in south-central Alaska, was investigated by integrated field and laboratory studies in the disciplines of geology, geochemistry, geophysics, and Landsat data interpretation for the purpose of assessing its mineral resource potential. Past mineral production has been limited to...
Hydrology and geochemistry of thermal springs of the Appalachians
W.A. Hobba Jr., D.W. Fisher, F. J. Pearson Jr., J.C. Chemerys
1979, Professional Paper 1044-E
No abstract available....
Earthquakes in the United States, April-June 1977
J. H. Minsch, Carl W. Stover, R. B. Simon
1979, Circular 788-B
No abstract available....
Earthquakes in the United States, January-March 1977
Ruth B. Simon, Carl W. Stover, B. Glen Reagor
1979, Circular 788-A
No abstract available....
Methods for determination of inorganic substances in water and fluvial sediments
Marvin W. Skougstad, Marvin J. Fishman, Linda C. Friedman, David E. Erdmann, Saundra S. Duncan, editor(s)
1979, Techniques of Water-Resources Investigations 05-A1
Chapter Al of the manual contains methods used by the U.S. Geological Survey to collect, preserve, and analyze water samples for their content of dissolved minerals and gases. Among the topics discussed are selection of sampling sites, frequency of sampling, sampling equipment, sample preservation, laboratory equipment and instrumental techniques, accuracy...
Progress on seismic zonation in the San Francisco Bay region
Earl E. Brabb
1979, Circular 807
No abstract available....
Preliminary geologic, petrologic, and paleontologic results of the study of Nanushuk Group rocks, North Slope, Alaska
Thomas S. Ahlbrandt, editor(s)
1979, Circular 794
No abstract available....
Steady-state dissolved oxygen model of the Willamette River, Oregon
Stuart W. McKenzie, W. G. Hines, D. A. Rickert, F. A. Rinella
1979, Circular 715-J
For nearly half a century the Willamette River in Oregon experienced severe dissolved-oxygen problems related to large loads of organically rich waste waters from industries and municipalities. Since the mid-1950 's dissolved oxygen quality has gradually improved owing to low-flow augmentation, the achievement of basinwide secondary treatment, and the use...
A supplement to "Methods for collection and analysis of aquatic biological and microbiological samples"
Phillip E. Greeson, editor(s)
1979, Techniques of Water-Resources Investigations 05-A4
The report contains methods used by the U.S. Geological Survey to collect, preserve, and analyze waters to determine their biological and microbiological properties. It supplements, "Methods for Collection and Analysis of Aquatic Biological and Microbiological Samples" (TWRI, Book 5, Chapter A4, 1977, edited by P. E. Greeson, T. A. Ehlke,...
Status of surface-water modeling in the U.S. Geological Survey
Marshall E. Jennings, Nobuhiro Yotsukura
1979, Circular 809
The U.S. Geological Survey is active in the development and use of models for the analysis of various types of surface-water problems. Types of problems for which models have been, or are being developed, include categories such as the following: (1)specialized hydraulics, (2)flow routing in streams, estuaries, lakes, and reservoirs,...
Transferring earth science information to decision makers; problems and opportunities as experienced by the U.S. Geological Survey
Thomas F. Bates
1979, Circular 813
Georgia from space; an explanation of the NASA Landsat 1 satellite image color mosaic of the State of Georgia
Sam M. Pickering, Michael W. Higgins
1979, Circular 787
Seismic engineering program report, May-August 1978
Water Resources Division, U.S. Geological Survey
1979, Circular 785-B
Scientific and technical, spatial, and bibliographic data bases of the U.S. Geological Survey, 1979
the Office of the Data Base Administrator
1979, Circular 817
Introduction to monitoring dynamic environmental phenomena of the world using satellite data collection systems, 1978
William Douglas Carter, Richard W. Paulson
1979, Circular 803
The rapid development of satellite technology, especially in the area of radio transmission and imaging systems, makes it possible to monitor dynamic surface phenomena of the Earth in considerable detail. The monitoring systems that have been developed are compatible with standard monitoring systems such as snow, stream, and rain gages;...
Seismic engineering program report, September-December 1978
Water Resources Division, U.S. Geological Survey
1979, Circular 785-C
