Geochemical prospecting
Authority Link
(OCoLC)fst00940335
Label
Geochemical prospecting
Name
Geochemical prospecting
Source
fast
Actions
Incoming Resources
- Utilization of mull (forest humus layer) in geochemical exploration in the Empire district, Clear Creek County, Colorado, sampling of the forest humus layer may be an effective geochemical tool in areas where the bedrock is covered by colluvium or glacial drift, by Gary C. Curtin [and four others]
- Interpreting pan-concentrate analyses of stream sediments in geochemical exploration for gold, by R.P. Fischer and F.S. Fisher
- Geochemical relations of zinc-bearing peat to the Lockport dolomite, Orleans County, New York, by Helen L. Cannon
- Geochemical prospecting using water from small streams in central South Carolina, by Henry Bell, III, and George E. Siple
- Preliminary geochemical studies in the Capitol Reef area, Wayne County, Utah, by Lyman C. Huff
- Geochemical reconnaissance of the Cortez-Buckhorn area, southern Cortez Mountains, Nevada, by John D. Wells and James E. Elliott
- An integrated system of geologic mapping and geochemical sampling by light aircraft, by C.L. Sainsbury, K.J. Curry, and J.C. Hamilton
- A geochemical reconnaissance for gold in the sedimentary rocks of the Great Lakes region, Minnesota to New York, by David A. Seeland
- Geochemical exploration techniques based on distribution of selected elements in rocks, soils, and plants, Mineral Butte copper deposit, Pinal County, Arizona, a comparison and evaluation of some different types of samples that may be useful for geochemical prospecting for copper in the semiarid environment, by Maurice A. Chaffee
- Utilization of humus-rich forest soil (mull) in geochemical exploration for gold, by Gary C. Curtin [and three others]
- Geochemical prospecting investigations in the Nyeba lead-zinc district, Nigeria, by H.E. Hawkes
- Geochemical reconnaissance in the Pequop Mountains and Wood Hills, Elko County, Nevada, by R.L. Erickson ... [et al.]
- Significance of tourmaline-rich rocks in the Grenville Complex of St. Lawrence County, New York, a study of tourmaline compositions and their possible use as indices of mineralization, by C. Ervin Brown and Robert A. Ayuso
- Geochemical prospecting with heavy-mineral concentrates used to locate a tungsten deposit, by P.K. Theobald and C.E. Thompson
- Geochemical and geophysical reconnaissance of parts of the Yakutat and Mount Saint Elias quadrangles, Alaska, by E.M. MacKevett, Jr. and George Plafker
- Gold content of water, plants, and animals, by Robert S. Jones
- Distribution and abundance of gold and other selected elements in altered bedrock, Empire Mining District, Clear Creek County, Colorado, a study of the geological and geochemical relationships of gold anomalies to those of tellurium, tin, bismuth, silver, and manganese, by Maurice A. Chaffee
- Geochemical reconnaissance using heavy minerals from small streams in central South Carolina, areas favorable for prospecting the Carolina slate belt evaluated by Spectrographic analyses and cluster analyses, by Henry Bell III
- Geochemistry and geology of deep drill holes at Iron Canyon, Lander County, Nevada, by Ted G. Theodore and Ralph J. Roberts ; with a section on geophysical logs of drill hole DDH-2, by Charles J. Zablocki
- Geochemical prospecting abstracts, July 1952-December 1954, / by Jane Ebner Erikson
- Some results of geochemical sampling in McCormick County, South Carolina, by Henry Bell
- Geochemical exploration techniques based on distribution of selected elements in rocks, soils, and plants, Vekol porphyry copper deposit area, Pinal County, Arizona, by Maurice A. Chaffee
- A simple mercury vapor detector for geochemical prospecting, by W. W. Vaughn
- Geochemical studies in the southwestern Wisconsin zinc-lead area, by Vance C. Kennedy
- Grade and tonnage relationships among copper deposits, by D.A. Singer, Dennis P. Cox, and Lawrence J. Drew ; Geochemical exploration techniques applicable in the search for copper deposits / by Maurice A. Chaffee
- Interpretation of exploration geochemical data from the Ugashik, Bristol Bay, and western Karluk quadrangles, Alaska, by S.E. Church, J.G. Frisken, and F.H. Wilson
- Atomic-absorption methods of analysis useful in geochemical exploration, a compilation of atomic-absorption methods yielding data on geologic materials useful in geochemical prospecting for ore deposits, by F.N. Ward, H.M. Nakagawa, T.F. Harms, and G.H. VanSickle
- Determination of nitrates in saline minerals, by Laura E. Reichen and Joseph J. Fahey
- Geochemical and geological reconnaissance in the Seventymile River area, Alaska, by Sandra H.B. Clark and Helen L. Foster
- Geochemical and mineralogical data for soils of the conterminous United States, by David B. Smith ... [and five others]
- A geochemical study of alluvium-covered copper deposits in Pima County, Arizona, by Lyman C. Huff; with a section on Analytical methods, by A.P. Marranzino and H.M. Nakagawa
- The determination of sulfate and sulfide sulfur in rocks or minerals, by Angelina C. Vlisidis
- Geochemical prospecting abstracts through June 1952, by John W. Harbaugh
- A field method for the determination of tungsten in soils, by F.N. Ward
- Geochemical and geologic reconnaissance of a part of the Fortymile area, Alaska, by Helen L. Foster and Sandra H.B. Clark
- Geochemical studies in the Coeur d'Alene district, Shoshone County, Idaho, by Vance C. Kennedy ; with a section on Geology, by S. Warren Hobbs
- Trace elements in magnetic concentrates from stream sediments in southwestern New Mexico, a potential tool for reconnaissance geochemical exploration in arid lands, by T.G. Lovering and J.A. Hedal
- Principles of geochemical prospecting, by H.E. Hawkes
- Analytical methods used in geochemical exploration by the U.S. Geological Survey, by F.N. Ward, H.W. Lakin, and F.C. Canney
- An integrated system of geologic mapping and geochemical sampling by light aircraft, by C.L. Sainsbury, K.J. Curry, and J.C. Hamilton
- Geochemical prospecting studies in the Bullwhacker mine area, Eureka district, Nevada, by Alfred T. Miesch and Thomas B. Nolan
- Geochemical prospecting for zinc, lead, copper, and silver, Lancaster Valley, southeastern Pennsylvania, by Jacob Freedman
- Rapid field and laboratory method for the determination of copper in soil and rocks, by Hy Almond
- Determination of nitrates in saline minerals, a quantitative method of analysis based on the stoichiometric relation of the nitrates to the magnesium oxide that is formed when a sample is heated to 700°C in the presence of an excess of magnesium sulfate, by Laura E. Reichen and Joseph J. Fahey
- Mercury in soil gas and air, a potential tool in mineral exploration, by J.H. McCarthy, Jr. [and three others]
- Distribution of minor elements in the Rodeo Creek NE and Welches Canyon quadrangles, Eureka County, Nevada, by James G. Evans and Jocelyn A. Peterson
- Geochemical reconnaissance in the Wiseman and Chandalar districts and adjacent region, southern Brooks Range, Alaska, by W. P. Brosgé and H. N. Reiser
- Analytical methods used in geochemical exploration, 1984, by Richard M. O'Leary and Allen L. Meier
- Geochemical prospecting using water from small streams in central South Carolina, by Henry Bell, III, and George E. Siple
- A geochemical study of alluvium-covered copper deposits in Pima County, Arizona, by Lyman C. Huff ; with a section on Analytical methods by A.P. Marranzino and H.M. Nakagawa
Outgoing Resources
- Focus1