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<br />
<br />87. BoIke, E. L., and K. M. Waddell. 1975. Chemical quality and temperature of water in
<br />Flaming Gorge Reservoir, Wyoming and Utah, and the effect of the reservoir on the
<br />Green River. U. S. Geol. Surv., Water-Supply Pap. 2039-A. 26 pp.
<br />
<br />RESERVOIR, RIVER-Green, TEMPERATURE, WATER QUALITY
<br />
<br />Provides information on water temperature and water chemistry of Flaming Gorge Reservoir.
<br />Also describes the effect of the reservoir on the Green River.
<br />
<br />88.
<br />
<br />Bosley, C. E. 1960.
<br />Comm., Cheyenne.
<br />
<br />Pre-impoundment study of the Flaming Gorge Reservoir.
<br />Fish. Tech. Rep. 9. 81 pp.
<br />
<br />Wyo. Game Fish
<br />
<br />DISTRIBUTION, FISH, FISHERY, INVERTEBRATE, LIMNOLOGY, PLANKTON, RIVER-Green, SURVEY
<br />
<br />A biological, chemical, and physical survey of the Flaming Gorge Reservoir site before
<br />impoundment, from La Barge, Wyoming, downstream to the dam site.
<br />
<br />89. Bowden, C. 1975. The impact of energy development on water resources in arid lands:
<br />Literature review and annotated bibliography. Office of Arid Lands Studies, Univ.
<br />Ariz. Tucson. Information paper to U. S. Office Water Res. Technol., Washington,
<br />D. C. Contract DI-14-31-000l-4258, and Natl. Tech. Inf. Serv., Springfield, Va.
<br />PB-240 008/3 ST. 288 pp.
<br />
<br />BIBLIOGRAPHY, ENERGY, MANAGEMENT, POLLUTION, RIVER-Colorado, WATER QUALITY, WATER RESOURCE
<br />
<br />Water is basic to energy conversion systems, natural and man-made. Consequences of energy
<br />extraction and conversion in arid lands where water is scarce are explored. The
<br />historical past is used as a record for casting model development plans into perspective;
<br />the worldwide growth in energy consumption rates is considered as the motive force behind
<br />many current energy projects in arid lands. Energy sources (coal, oil, gas, oil shale,
<br />solar energy, and alternative energy sources--fission, fusion, and geothermal) are reviewed
<br />in terms of their consequences on the air, land, water, and inhabitants of such regions.
<br />Two rivers, the Colorado and the Missouri, provide small-scale models of the rewards and
<br />hazards of heavily exploiting water-short areas. In both instances, energy development
<br />plans, as now proposed, will seriously deplete the water supply; alter the quality of the
<br />water, land, and air; and increase the human population.
<br />
<br />90. Box, T. W. 1977. The arid lands revisited 100 years after John Wesley Powell. 57th Annu.
<br />Faculty Honor Lecture, Utah State Univ., Logan. 30 pp.
<br />
<br />DESCRIPTION, ECOLOGY, HIRTORY, RIVER-Colorado
<br />
<br />Reviews the characteristics of the arid lands of the Colorado River basin and the history
<br />of use as related to the ecological potential of these lands.
<br />
<br />91.
<br />
<br />Boyd, R. J.
<br />Denver.
<br />
<br />1970. Elk of the White River Plateau, Colorado.
<br />Tech. Pub. 25. 126 pp.
<br />
<br />Colo. Div. Game Fish Parks,
<br />
<br />DESCRIPTION, ECOLOGY, HISTORY, MOVEMENT, POPULATION, RIVER-White, WILDLIFE
<br />
<br />Summary of all pertinent information available through 1965 on the ecology of the elk on
<br />the White River Plateau in northwestern Colorado. This herd is considered the largest
<br />and most valuable in Colorado.
<br />
<br />92. Boyd, R. J. 1974. Upper Roaring Fork environmental impact study. Colo. Div. Wildl.,
<br />Denver, Div. Rep. 1. 81 pp.
<br />
<br />HISTORY, RECREATION, WILDLIFE
<br />
<br />Provides historical data for the wildlife resources in the Roaring Fork and Crystal River
<br />valleys and projects the recreational needs of the area.
<br />
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