Environment environmental research

I ellstrom T, Shiroishi K., and Evrin P. (1977). Urinary B-2-microglobulin excretion among people exposed to cadmium in the general environment. Environmental Research, 13, 318-344. 

E. J. Weber, Fate of Textile Dyes in the Aquatic Environment Degradation of Disperse Blue 79 in Anaerobic Sediment-Water Systems, Environmental Research Laboratory, U.S. EPA, Athens, Ga., Mar. 1988. 

Has a world-wide database of federal and non-profit environmental research organizations that focus on the multiple aspects of global environmental change, including the regional effects on natural ecosystems, environments and resources as well as on human health, culture and social systems. 

EPA. 1981a. Acephate, aldicarb, carbophenothion, DBF, EPN, ethoprop, methyl parathion, and phorate Their acute and chronic toxicity, bioconcentration potential and persistence as related to marine environments. Gulf Breeze, FL U.S. Environmental Protection Agency, Environmental Research Laboratory. EPA-600/4-81/04L NTIS PB81-244477. 1-275. 

Walker, C.H. and Johnston, G.O. (1989). Interactive effects of pollutants at the kinetic level Implications for the marine environment. Marine Environmental Research 28, 521-525. 

Field fortification (commonly referred to as field spiking) is the procedure used to prepare study sample matrices to which have been added a known amount of the active ingredient of the test product. The purpose for having field fortification samples available in a worker exposure study is to provide some idea of what happens to the test chemical under the exact environmental field conditions which the worker experiences and to determine the field storage stability of the test substance on or in the field matrix materials. Field fortifications do not serve the purpose of making precise decisions about the chemical, which can better be tested in a controlled laboratory environment. The researcher should not assume that a field fortification sample by its nature provides 100% recovery of the active ingredient at all times. For example, a field fortification sample by its very nature may be prone to cross-contamination of the sample from environmental contaminants expected or not expected to be present at the field site. 

DOE. 1980. Transuianic elements in the environment. Office of Health and Environmental Research. U.S. Department of Energy. QH545.T74T73. 574.5222. 80-607069. ISBN 0-87079-119-2. 

Murr, L.E., Garza, K.M., Soto, K.F., Carrasco, A., Powell, T.G., Ramirez, D.A., Guerrero, P.A., Lopez, D.A., and Venzorlll, J. (2005) Cytotoxicity assessment of some carbon nanotubes and related carbon nanoparticle aggregates and the implications for anthropogenic carbon nanotube aggregates in the environment. International Journal of Environmental Research and Public Health, 2 (1), 31-42. 

Heft, R. E., Harrison, F. L. and Phillips, W. A. (1971). Radioecological study of the Humboldt Bay marine environment, page 158 in Nuclear Methods in Environmental Research, USAEC Report No. CONF-710818, Vogt, J. R., Parkinson, T. F. and Carter, R. L., Eds. (University of Missouri, Columbia, Missouri). 

Crookes, M.J., Howe, P.D. (1993) Environmental Hazard Assessment Halogenated naphthalenes. Toxic Substances Division, Directorate for Air, Climate and Toxic Substances, Department of the Environment, Build Research Establishment, Garston, Watford, WD2 7JR. 

Smith, J.H., Mabey, W.R., Bahonos, N., Holt, B.R., Lee, S.S., Chou, T.W., Venberger, D.C., Mill, T. (1978) Environmental Pathways of Selected Chemicals in Fresh Water Systems Part II. Laboratory Studies. Interagency Energy-Environment Research Program Report. EPA-600/7-78-074. Environmental Research Laboratory Office of Research and Development. US EPA, Athens, GA 30605, pp. 304. 

The chemistry of carbon, and radiocarbon, in the atmosphere represents one of the most important areas of environmental research today. The primary practical reason for this is the increasing attention which must be paid to the critical balance between energy and the environment, especially from the viewpoint of man s perturbations of natural processes and his need to maintain control. Probably more than other species, carbonaceous molecules play a central role in this balance. Some of the deleterious effects of carbonaceous gases and particles in the atmosphere are set down in Table 3. The potential effects of increased local or global concentrations of these species on health and climate have led to renewed interest in the carbon cycle and the "C02 Problem". It should be evident from the table, however, that carbon dioxide is not the only problem. In fact, the so-called "trace gases and particles" in the atmosphere present an important challenge to our interpretation of the climatic effects of carbon dioxide, itself [20]. 

Cooper, G.S., Miller, F.W., and Pandey, J.P., The Role of Genetic Factors in Autoimmune Disease Implications for Environmental Research, Environ. Health Perspect., 107, 693, 1999. 

William Randall Seeker received his Ph.D. in engineering (nuclear and chemical) from Kansas State University. He is the senior vice president and a member of the board of directors of Energy and Environmental Research Corporation. Dr. Seeker has extensive experience in the use of thermal treatment technologies and environmental control systems for managing hazardous waste. He is a member of the Executive Committee of the Environmental Protection Agency s Science Advisory Board. Dr. Seeker has authored over 100 technical papers on various aspects of technology and environment subjects. 

Alexander M (1995) Draft report environmentally acceptable endpoints in soil. Gas Research Institute, Environment Safety Research Group... 

EPA (1978) Fate of 3,3 -dichlorobenzidine in aquatic environments. US Environmental Protection Agency, Environmental Research Laboratory, Athens, EPA-600/3-78-068... 

Zhang, J. and Zhang, Y. 2001, Development and application of SPMD technology to environmental research. Mar. Environ. Sci. 20 67-74. 

UBA (2001). Substituting Environmentally Relevant Flame Retardants Assessment Fundamentals. ISSN 0722-186X, March 2001. Cited in Growing Threats Toxic Flame Retardants Children s Health. Environment California Research and Policy Center, 2003. See UBA s press release at http // www.umweltbundesamt.de/uba-info-presse-e/presse-informationen-e/ p5601 -e.htm... 

From Prevedouros et ak, 2004) We are grateful to the UK Department of the Environment, Food and Rural Affairs (DEFRA) Air Quality Division for financial support. We also wish to thank Anna Palm of the Swedish Environmental Research Institute and Dr. Knut Breivik of the Norwegian Institute for Air Research (NILU) for their helpful comments. 

Bourquin AW. 1984. Biodegradation in the estuarine-marine environments and the genetically altered microbe. EPA 600/D-84-051. NTIS PB84-151315. Gulf Breeze, FL U.S. EPA Environmental Research Lab, 35. 

Batteries and Fuel Cells for a Better Environment the Chalmers University of Technology Gothenburg and the Royal Institute of Technology Stockholm are conducting research that is being funded by Mistra, The Foundation for Strategic Environmental Research. 

Office for Official Publications of the European Communities, State and pressures of the marine and coastal Mediterranean environment, Environmental issues series No 5, Luxembourg (1999) Ohta, H., Goto, S., Teshima, H., Industrial Engineering Chemistry Research, 19, 180 (1980)... 

For example, the benefit of a cleaner environment was not examined and, moreover, would be very difficult to measure. However, an objective of this study is to contribute to the on-going process of evaluation of costs versus benefits of governmental regulation of business. Hence, the following is a summary assessment of the costs versus benefits of environmental research in the chemical industry. 

Montague, P. 1998. Rachel s Environment Health News 586 - The Precautionary Principle. Environmental Research Foundation, New Brunswick, Environment Health News 532.pdf>. Accessed 15/11/04. 

Thomann, R.V., J.P. Connolly, and T.F. Parkerton. 1992. An equilibrium model of organic chemical accumulation in aquatic food webs with sediment interaction. Environ. Toxicol. Chem. 11 615-629. Thurston, R.V. and P.C. Gehrke. 1993. In Fish Physiology, Toxicology, and Water Quality management. Proceedings of an International Symposium, Sacramento, California, USA, September 18-20,1990. R.C. Russo and R.V. Thurston, Eds., p. 95. Environmental Research Laboratory Office of Research and Development. EPA, Athens, Georgia. EP/600/R-93/157. 

Urbansky, E. T. (ed.) (2000) Perchlorate in the Environment, Environmental Science Research 57, Kluwer Academic Publishers, New York, NY. 

Galbraith D. Smith P. Mortimer N. Stewart R. Hlobson M. McPherson G. Matthews R. Mitchell P. Nijnik M. Norris J. Skiba U. Smith J. and Towers W. (2006). Review of Greenhouse Gas Life Cycle Emissions, Air Pollution Impacts and Economics of Biomass Production and Consumption in Scotland. Environmental Research Report 2006/02, Scottish Executive Environment and Rural Affairs Department, Edindurgh, 267 pp. 

Sinclair, J.L. and T.R. Lee (1992). Biodegradation of abazine in subsurface environments. Ada, OK US Environmental Protection Agency, Robert S. Kerr Environmental Research Laboratory. USEPA/600/S-92/001, 8 pp. 

Citizen Institute of Environmental Studies (CIES), 2002. Investigation on Residents health near a waste incinerator, KeumHo Environment Incoporation. Research report (in Korean), Seoul, Korea. 

Korea Ministry of Environment National Institute of Environmental Research (KMOE NIER), 1997, 1998, 1999, 2000, 2001, 2002, 2003. National statistics on waste generation and treatment. Yearbook (in Korean). Seoul, Korea. 

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