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Center for Research in Water Resources

Kudo, A. (1983). Physical/chemical/biological removal mechanisms of mercury in a receiving stream. In Toxic Materials - Methods for Control" (N. E. Armstrong and A. Kudo, eds). The Center for Research in Water Resources, University of Texas at Austin, Austin, TX. [Pg.417]

R.E. Speece, and J.F.Malina, Applications of commercial oxygen to water and wastewater system , Center for research in Water Resources, 1973,p. 16... [Pg.503]

A. Kudo, eds.), pp. 325-285. The Center for Research in Water Resources, University of Texas at Austin, Austin, Texas. [Pg.351]

Leo Roy Beard graduated as a civil engineer in 1939 from Caltech. He worked in water resources development then with the Corps of Engineers until 1972, finally as Direetor of Hydrologic Engineering Center HEC, Davis CA. Beard was in parallel a professor of civil engineering at the University of Texas, Austin, where he had directed the Center for Research in Water Resources from 1972 to 1980. [Pg.85]

A series of unpublished reports is available from Center for research in Water Resources at the University of Texas. [Pg.436]

This project was administered by the Idaho Department of Water Resources Energy Division. We thank the University of Idaho, Aberdeen Research and Extension Center for assistance in separating the straw stems used in the tests Dr. Stephen Aust and Paul Swaner at Utah State University for maintaining and supplying the fungal cultures for inoculum pro-... [Pg.92]

The authors wish to acknowledge the support of this research provided by the Office of Water Research and Technology, U.S. Department of the Interior, Washington, D.C., under Grant No. 14-34-0001-7810. Partial support was also provided by the State of California Saline Water Research Funds administered by the Water Resources Center at the University of California, Davis, California. We also express our thanks to the five membrane manufacturers for their splendid cooperation in providing samples for this study. [Pg.189]

This work was supported by NSF Grant No. DAR-8003523. Early work on the toxins was supported by the New Hampshire Water Resources Research Center of the University of New Hampshire, Grant No. AO-47NH, from the Office of Water Research and Technology, United States Department of the Interior as authorized under the Water Research and Development Act of 1978, Public Law 95-467. We also thank Dr. William J. Adelman, Jr., NINCDS, Woods Hole, for performing the voltage-clamp experiments Kurt Auger for superior work in biochemistry and Toshinori Hoshi for studies on the crayfish axons. [Pg.405]

The National Center for Environmental Assessment (NCEA), which is part of the EPA Office of Research and Development (ORD), serves as the national resource center for the overall process of human health and ecological risk assessments the integration of hazard, dose-response, and exposure data and models to produce risk characterizations. NCEA prepares a variety of documents, many of which are the source of scientific information used by EPA decision makers in developing or revising regulations. The documents can pertain to a specific medium, such as air or water, or they can be comprehensive analyses of scientific data. Many NCEA documents contain analyses... [Pg.219]

The Duboisia myoporoides - D. leichhardtii hybrid (M-II-8-6), which was used for explants, is cultivated at the Research Center for Medicinal Plant Resources, Tsukuba, Japan. Leaves were dipped in 75% ethanol for 10 seconds, rinsed in sterilized water, surface-sterilized for 10 minutes in 2% sodium hypochlorite containing Tween 20 (1 drop per 40 ml) and then washed three times with sterilized water. Leaf segments (ca. 5x5 mm) were incubated on MS solid medium containing 1 mg/1 lAA and 3% sucrose in the dark at 25 "C. Within 3 weeks, adventitious roots developed. [Pg.694]

This chapter is contribution No. 159 from the Center for Water and the Environment of the Natural Resources Research Institute. Research reported in this chapter was supported, in part, by grant F49620-94-1-0401 from the United States Air Force, Exxon Corporation, and the Structure-Activity Relationship Consortium (SARCON) of the Natural Resources Research Institute at the University of Minnesota. [Pg.112]

Lorena Cornejo (distribution and d5namics of the chemical elements in water and soil development, optimization and apphcation of spectroscope techniques for environmental matrices decontamination technologies and water disinfection). Laboratory of Environmental Research on Arid Zones (LIMZA, EUDIM), University ofTarapaca (UTA) Environmental Resources Area, Research Center of the Man in the Desert (CIHDE), Arica... [Pg.17]


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