Ecotoxicology: A Comprehensive TreatmentCRC Press, 2007 M12 13 - 880 pages A unique presentation that unifies the field, this book brings together concepts and information about contaminant effects at all levels of the biological hierarchy. Beginning at the biomolecular level, this book builds progressively toward a discussion of effects to the global biosphere. Emphasizing ecological components and fundamental paradigms, the authors strike a balance between the presentation of details relevant at each level and the integration of phenomena and processes among levels. A milestone in the field, the book is suitable for graduate courses, as well as a reference for professionals in the field. |
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... Species Interactions 21.5.1 Environmental Stress Gradients 21.6 Summary 21.6.1 Summary of Foundation Concepts and ... Richness and Diversity to Characterize Communities .... 415 22.3.2.1 Species Richness 22.3.2.2 Species Diversity 415 ...
... Species Interactions 21.5.1 Environmental Stress Gradients 21.6 Summary 21.6.1 Summary of Foundation Concepts and ... Richness and Diversity to Characterize Communities .... 415 22.3.2.1 Species Richness 22.3.2.2 Species Diversity 415 ...
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... species that are protected by prohibiting the taking of even a single individual . It also provides a firm base at ... richness of classic toxicology and autecology comes at a price . The paradigms around which phenomena are explored by ...
... species that are protected by prohibiting the taking of even a single individual . It also provides a firm base at ... richness of classic toxicology and autecology comes at a price . The paradigms around which phenomena are explored by ...
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... species and the most sensitive life stage is identified as that stage with the lowest NOEC or LC50. The incorrect ... richness and latitude (or elevation) is also based on individual species' tolerances. Ambiguously useful applications ...
... species and the most sensitive life stage is identified as that stage with the lowest NOEC or LC50. The incorrect ... richness and latitude (or elevation) is also based on individual species' tolerances. Ambiguously useful applications ...
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Contents
3 | |
11 | |
13 | |
23 | |
43 | |
63 | |
Chapter 6 Physiology | 81 |
Chapter 7 Bioaccumulation | 95 |
Chapter 20 Introduction to Community Ecotoxicology | 361 |
Chapter 21 Biotic and Abiotic Factors That Regulate Communities | 379 |
Chapter 22 Biomonitoring and the Responses of Communities to Contaminants | 409 |
Chapter 23 Experimental Approaches in Community Ecology and Ecotoxicology | 439 |
Chapter 24 Application of Multimetric and Multivariate Approaches in Community Ecotoxicology | 473 |
Chapter 25 Disturbance Ecology and the Responses of Communities to Contaminants | 497 |
Chapter 26 Community Responses to Global and Atmospheric Stressors | 533 |
Chapter 27 Effects of Contaminants on Trophic Structure and Food Webs | 581 |
Chapter 8 Models of Bioaccumulation and Bioavailability | 115 |
Chapter 9 Lethal Effects | 135 |
Chapter 10 Sublethal Effects | 163 |
Chapter 11 Conclusion | 189 |
Population Ecotoxicology | 193 |
Chapter 12 The Population Ecotoxicology Context | 195 |
The Study of Disease in Populations | 215 |
Chapter 14 Toxicants and Simple Population Models | 241 |
Chapter 15 Toxicants and Population Demographics | 263 |
Chapter 16 Phenogenetics1 of Exposed Populations | 281 |
Damage and Stochastic Dynamics of the Germ Line | 305 |
Natural Selection | 331 |
Chapter 19 Conclusion | 353 |
Community Ecotoxicology | 359 |
Chapter 28 Conclusions | 603 |
Ecosystem Ecotoxicology | 611 |
Chapter 29 Introduction to Ecosystem Ecology and Ecotoxicology | 613 |
Chapter 30 Overview of Ecosystem Processes | 635 |
Chapter 31 Descriptive Approaches for Assessing Ecosystem Responses to Contaminants | 665 |
Chapter 32 The Use of Microcosms Mesocosms and Field Experiments to Assess Ecosystem Responses to Contaminants and Other Stressors | 687 |
The Relationship between Species Diversity and Ecosystem Function | 715 |
Chapter 34 Fate and Transport of Contaminants in Ecosystems | 737 |
Chapter 35 Effects of Global Atmospheric Stressors on Ecosystem Processes | 771 |
Ecotoxicology A Comprehensive TreatmentConclusion | 811 |
Chapter 36 Conclusion | 813 |
Index | 829 |
Back cover | 853 |
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Ecotoxicology: A Comprehensive Treatment Michael C. Newman,William H. Clements No preview available - 2007 |
Common terms and phrases
abiotic abundance acid acidification anthropogenic anthropogenic disturbance approaches aquatic ecosystems assessment associated benthic bioaccumulation bioavailability biological biomass biotic cadmium cells Chapter Chem chemical stressors Clements community composition community ecology community structure concentrations decomposition described dynamics Ecol ecological ecologists ecosystem processes ecotoxicology effects of contaminants Environ environmental Equation estimated example experimental experiments exposed factors fish food chain food web food webs genetic genotypes global growth habitat heavy metals hypothesis impact important increased influence invertebrates keystone species lakes macroinvertebrate measures metabolism metrics microbial microcosm and mesocosm mosquitofish natural Newman number of species nutrient organisms PCBs periphyton pollution population predators predict prey primary productivity quantify rainbow trout recovery reduced relationship relative reproduction responses risk sampling Science sediments sensitive significant soil spatial species diversity species interactions species richness streams stress stressors studies tolerance toxicant toxicant exposure Toxicol toxicology trophic levels uptake UV-B variables variation zooplankton
Popular passages
Page 263 - tis not to come ; if it be not to come, it will be now ; if it be not now, yet it will come : the readiness is all...
Page 215 - All scientific work is incomplete — whether it be observational or experimental. All scientific work is liable to be upset or modified by advancing knowledge. That does not confer upon us a freedom to ignore the knowledge we already have, or to postpone action that it appears to demand at a given time.
Page 230 - What they can do, with greater or less strength, is to help us make up our minds on the fundamental question — is there any other way of explaining the set of facts before us, is there any other answer equally, or more, likely than cause and effect?
Page 331 - Natural Selection acts exclusively by the preservation and accumulation of variations, which are beneficial under the organic and inorganic conditions to which each creature is exposed at all periods of life. The ultimate result is that each creature tends to become more and more improved in relation to its conditions. This improvement inevitably leads to the gradual advancement of the organisation of the greater number of living beings throughout the world.
Page 266 - There is an appointed time for everything, and a time for every affair under the heavens. "A time to be born, and a time to die.
Page 409 - the ability of an aquatic ecosystem to support and maintain a balanced, integrated, adaptive community of organisms having a species composition, diversity, and functional organization comparable to that of the natural habitats within a region
Page 40 - P. (1994) Disruption of the mouse mdrla P-glycoprotein gene leads to a deficiency in the blood-brain barrier and to increased sensitivity to drugs. Cell, 77: 491-502.
Page 21 - R. MONROE, 1960. The effect of salinity and temperature on larval development of Sesarma cinereum (Bosc) reared in the laboratory.
Page 160 - Hamilton, MA, RC Russo, and RV Thurston. 1977. Trimmed Spearman-Karber method for estimating median lethal concentrations in toxicity bioassays.