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<br />190. Casey, KG., 1980, Appendix to volume l--Energy development scenarios for the Four Corners
<br />States and the Upper Colorado River Basin, in Spofford, W.O., Jr., Parker, AL., and Kneese,
<br />AV., eds.,.Energy development in the Southwest, problems of water, fish and wildlife in the
<br />Upper Colorado River Basin, volume 1: Washington, D.C., Resources for the Future, Research
<br />Paper R-18, p. 448-523.
<br />
<br />191. Casey, H.E., 1972, Salinity problems in arid lands irrigation--A literature review and selected
<br />bibliography: Tucson, Ariz., University of Arizona Institute Arid Lands Res. Inf. Paper 1,
<br />311 p. [Also available from National Technical Information Service, Springfield, VA 22161 as
<br />NTIS Report PB-214 172/9.]
<br />
<br />Bibliography of 986 references with a review of such broad topics as (1) water quality
<br />of the total drainage basin, (2) control of salinity and soil reclamation, (3) effects of
<br />drought on salts in plants, soil, and water, (4) basic water balance problems related to
<br />irrigation, and (5) historical perspective of problems caused by salinity. The Colorado
<br />River Basin was used as an example of a microcosm in which socioeconomic factors
<br />are considered.
<br />
<br />192. Center for Public-Private Sector Cooperation, 1993, Recommendations on the legal, policy, and
<br />institutional issues related to instream flow protection in Colorado: Boulder, Colo., University
<br />of Colorado, Colorado River Recovery Implementation Program Report.
<br />
<br />193. Chadwick, D.G., 1968, Electronic analog simulation of the salinity flow system within the
<br />Upper Colorado River Basin, first annual progress report, FWPCA Demonstration Project
<br />WPD 178-01-67: Logan, Utah, Utah Water Resources Laboratory, 73 p.
<br />
<br />194. Chamberlain, T.K., 1946, Fishes, particularly the suckers, Catostomidae, of the Colorado River
<br />drainage and of the Arkansas River drainage, in relation to the Gunnison-Arkansas
<br />transmountain diversion: College Station, Tex., U.S. Fish and Wildlife Service.
<br />
<br />195. Champion, D.F., Kruse, E.G., Olsen, s.R, and Kincaid, D.C., 1991, Salt movement under level-
<br />basin irrigation: American Society of Civil Engineers, Joumal of Irrigation and Drainage
<br />Engineering, v. 117, no. 5, p. 642-655.
<br />
<br />Level-basin irrigation has been studied at two sites in western Colorado for seven
<br />years. This paper describes changes in the salinity profile in the root zone under level-
<br />basin irrigation. On soils with initially low salt content, salt concentrations in the soil
<br />profiles increased under level-basin irrigation, because the irrigation efficiencies are
<br />greater than for prior practices" Conversely, good water management and uniform
<br />applications on level basins lowered the salt content in the top 60 cm of soils with high
<br />initial salt content. After a few years of level-basin irrigation with Colorado River
<br />water, in either case, the salt content equilibrated at levels that do not restrict growth
<br />of common field crops.
<br />
<br />196. Chaney, T.H., Kuhn, Gerhard, Brooks, Tom, and others, 1987, Hydrology of Area 58, Northern
<br />Great Plains and Rocky Mountain coal provinces, Colorado and Utah: U.S. Geological Survey
<br />Water-Resources Investigations Open-File Report 85-479,103 p.
<br />
<br />BIBLIOGRAPHY 35
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