Ecotoxicology and Climate: With Special Reference to Hot and Cold ClimatesWiley, 1989 M04 19 - 392 pages This publication is based primarily on a workshop held at the Fraunhofer Institute for Environmental Chemistry and Ecotoxicology in Schmallenberg-Grafschaft, Federal Republic of Germany, in July 1985. The thirteen papers and eight case studies in this collection examine the ecotoxicological principles applicable to climatic conditions found in regions other than the temperate zones. Presents data from the tropical, arid, sub-polar, and high mountain regions on the fate of environmental chemicals and the response of ecosystems to chemical stress. They also point the way to future research and monitoring. |
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Page 71
... increased photosynthetic activity , carbohydrate transport from the leaves is increased , moving away other chemicals in the assimilate stream ( Morrison and Cohen , 1980 ) . A study was made of soil - applied phorate uptake by plants ...
... increased photosynthetic activity , carbohydrate transport from the leaves is increased , moving away other chemicals in the assimilate stream ( Morrison and Cohen , 1980 ) . A study was made of soil - applied phorate uptake by plants ...
Page 72
... increasing temperature . Volatilization is markedly retarded when soil becomes dry . This is less pronounced for poor sandy soils ( low content of organic carbon and clay minerals ) . Increasing soil temperature from 10 ° C to 30 ° C ...
... increasing temperature . Volatilization is markedly retarded when soil becomes dry . This is less pronounced for poor sandy soils ( low content of organic carbon and clay minerals ) . Increasing soil temperature from 10 ° C to 30 ° C ...
Page 300
... increased temperature increased the volatilization of aldrin from soil ; for a Plainfield sand , an increase in temperature of about 10 ° C increased the rate of volatilization more than twofold . Farmer et al . ( 1972 ) demonstrated ...
... increased temperature increased the volatilization of aldrin from soil ; for a Plainfield sand , an increase in temperature of about 10 ° C increased the rate of volatilization more than twofold . Farmer et al . ( 1972 ) demonstrated ...
Contents
P Bourdeau J A Haines W Klein | 3 |
Worlds Climate and Ecosystems | 13 |
Environmental Fate of Chemicals and Chemical | 63 |
Copyright | |
2 other sections not shown
Common terms and phrases
acid activity Agric agricultural aldrin animals application aquatic areas arid zone atmosphere bioaccumulation biological BPMC C. R. Krishna Murti carbamates carbaryl carbofuran carbon Chem chemicals chlorpyrifos climate coastal compounds concentrations contamination coral Côte d'Ivoire crops cypermethrin decrease Dejoux desert developing countries diazinon dieldrin ecological ecosystems Ecotoxicology effects endosulfan environment environmental exposure factors fate fauna fenitrothion fish flooded soil forest herbicides higher temperatures humidity hydrocarbons hydrolysis increased India industrial insect insecticides irrigation Leptophos levels lindane Magallona marine mercury metabolism mg/l microbial degradation microorganisms monitoring monocrotophos nutrients Ocean organochlorine organophosphates paddy parathion persistence pesticides pests Philippines plants pollutants population problems processes production Programme rainfall regions Research residues result rice rivers salinity samples SCOPE season Second Indochina War sediment Sethunathan Simulium species spraying studies subtropical surface Table temephos temperate tonnes toxicity transport tropical uptake vegetation volatilization xenobiotics