Geology and ground-water hydrology of the Mokelumne area, California
A. M. Piper, H. S. Gale, H. E. Thomas, T. W. Robinson
1939, Water Supply Paper 780
The Mokelumne River basin of central California comprises portions of the California Trough and the Sierra Nevada section of the Pacific Mountain system. The California Trough is divisible into four subsections-the Delta tidal plain, the Victor alluvial plain, tlie river flood plains and channels, and the Arroyo Seco dissected pediment....
Geology and ground-water resources of the Harney Basin, Oregon, with a statement on Precipitation and tree growth
Arthur M. Piper, T. W. Robinson, C.F. Park, L.T. Jessup
1939, Water Supply Paper 841
Ground water in the United States, a summary of ground-water conditions and resources, utilization of water from wells and springs, methods of scientific investigation, and literature relating to the subject
O. E. Meinzer
1939, Water Supply Paper 836-D
Surface water supply of the United States, 1937, Part VIII, Western Gulf of Mexico basins
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 828
Surface water supply of the United States, 1929, Part I, North Atlantic slope basins
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 681
Surface water supply of the United States, 1937, Part III, Ohio River basin
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 823
Surface water supply of the United States, 1938, Part VII, Lower Mississippi River basin
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 857
Surface water supply of the United States, 1938, Part IV, St. Lawrence River basin
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 854
Surface water supply of Hawaii : July 1, 1936 to June 30, 1937
Nathan C. Grover, Max H. Carson
1939, Water Supply Paper 835
Surface water supply of the United States, 1938, Part IX, Colorado River basin
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 859
Surface water supply of the United States, 1938 : Part 14, Pacific slope basins in Oregon and lower Columbia River basin
Water Resources Division, U.S. Geological Survey
1939, Water Supply Paper 864
Geology of some dam sites on Little Colorado and its tributaries, Arizona
Edwin B. Eckel
1939, Open-File Report 40-5
This report contains descriptions of the geology of 10 dam and reservoir sites on the Little Colorado River and several of its larger tributaries in northern Arizona. All of the streams examined are intermittent in character and are dry during the greater part of every year. At times they all...
Protecting field crops from waterfowl damage by means of reflectors and revolving beacons
F.M. Uhler, Stephen Creech
1939, Wildlife Leaflet 149
No abstract available....
Fluctuations in artesian pressure produced by passing railroad‐trains as shown in a well on Long Island, New York
C. E. Jacob
1939, Eos, Transactions, American Geophysical Union (20) 666-674
Perhaps one of the chief interests of ground‐water hydrologists is the study of water‐level fluctuations. Since the beginning of the science of hydrology attempts have been made to interpret these phenomena and determine their significance. On the basis of actual observations and “with special reference to Long Island, New York,”...
Earth‐tides shown by fluctuations of water‐levels in wells in New Mexico and Iowa
T. W. Robinson
1939, Eos, Transactions, American Geophysical Union 656-665
It is quite generally known that ocean‐tides produce fluctuations of the water‐level in wells of the artesian type located close to the seashore by periodically changing the external load on the aquifer [see 1 of “References” at end of paper]. Fluctuations of ground‐water as a result of earth‐tides, however, are...
Discussion of question no. 2 of the International Commission on Subterranean Water: Definitions of the different kinds of subterranean water
O. E. Meinzer
1939, Eos, Transactions, American Geophysical Union (20) 674-677
The hydrologists who are concerned with the study of the water that occurs below the land‐surface feel strongly the need of better agreement among the different countries as to the fundamental concepts of this branch of hydrology and as to technical terms to designate these concepts. For this reason, the...
Report of the committee on underground waters, 1938–39
David G. Thompson
1939, Eos, Transactions, American Geophysical Union (20) 545-555
In preparing the report of the Committee on Underground Waters of the Section of Hydrology for the final year of the triennium, it becomes evident that the collection of fundamental data relating to the hydrology of underground waters continues at a rate comparable to that maintained in the past few...
Relation of fall stream‐flow to spring runoff
H.C. Eagle
1939, Eos, Transactions, American Geophysical Union (20) 117-221
In the prediction of spring runoff from precipitation‐records or snow‐surveys, one of the factors which seems to require consideration is the amount of water held in ground‐storage. The determination of the quantity of water in ground‐storage is a difficult problem involving soil‐sampling, measurements of ground‐water wells, and measurements of the...
Report of the committee on chemistry of natural waters, 1938–39
C. S. Howard
1939, Eos, Transactions, American Geophysical Union (20) 609-611
The membership of this Committee is as follows:C. S. Howard (Chairman), United States Geological Survey, Washington, D.C.I. A. Denison, National Bureau of Standards, Washington, D.C.W. P. Kelley, 119 Hilgard Hall, University of California, Berkeley, CaliforniaA. C. Lane, 22 Arlington Street, Cambridge, MassachusettsC. S. Scofield, Bureau of Plant Industry, United States...
Ground‐water problems in the Southern High Plains
Walter N. White
1939, Eos, Transactions, American Geophysical Union (20) 32-35
The High Plains region has been passing through a prolonged low in the precipitation‐cycle during a large part of the last decade. The drought has continued longer and has been more severe than any that has been experienced since the region began to be farmed. It has caused untold distress....
Some general observations of physiographic and climatic influences on floods
W. G. Hoyt, W. B. Langbein
1939, Eos, Transactions, American Geophysical Union (20) 166-154
The magnitude of flood‐runoff and the degree to which it concentrates in river‐channels with respect to time is known to vary within wide limits. To a considerable extent these variations relate to the physiographic and edaphlc features of the drainage‐basins as they have been developed by the geologic and climatic...
Part II—Geophysical investigations in the Hawaiian Islands
J.H. Swartz
1939, Eos, Transactions, American Geophysical Union (20) 292-298
During 1938 and 1939, an extensive series of geophysical surveys, employing both resistivity and magnetic methods, have been carried on in the Hawaiian Islands by the Section of Geophysics of the United States Geological Survey in cooperation with the Division of Ground‐Water of the Survey and the Division of Hydrography...
Report of committee on glaciers, April 1939
Francois E. Matthes
1939, Eos, Transactions, American Geophysical Union (20) 518-523
The Committee on Glaciers at present is constituted as follows:Harry Fielding Reid—Professor‐Emeritus of Geology, Johns Hopkins University (former member of the International Glacier Commission), 608 Cathedral Street, Baltimore, MarylandWilliam H. Hobbs—Professor‐Emeritus of Geology, University of Michigan (until recently Vice‐ President of the International Glacier Commission, at present associate member), Ann...
Ground waters of the Houston-Galveston Area: Chemical character and industrial utility
Margaret D. Foster
1939, Industrial and Engineering Chemistry (31) 1028-1034
No abstract available. ...
Sienna ("ocher") deposits of the Cartersville District, Georgia
Thomas L. Kesler
1939, Economic Geology (34) 324-341
Sienna ("ocher") deposits in the Cartersville district, Georgia, occur in the contact zone between dolomitic limestone and underlying quartzite of Lower Cambrian age. These rocks, together with interbedded schists, were folded and recrystallized probably near the close of Paleozoic time. Simple fissures and transverse and oblique faults, formed during the...
