Keywords:
Environmental management.
;
Electronic books.
Type of Medium:
Online Resource
Pages:
1 online resource (203 pages)
Edition:
1st ed.
ISBN:
9783319339726
Series Statement:
Reviews of Environmental Contamination and Toxicology Series ; v.239
URL:
https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=4697500
DDC:
577.27
Language:
English
Note:
Intro -- Foreword -- Preface -- Contents -- Contributors -- Prospective Environmental Risk Assessment for Sediment-Bound Organic Chemicals: A Proposal for Tiered Effect Assessment -- 1 Introduction -- 2 Benthic Ecology -- 3 Ecosystem Functions and Services Provided by Benthic Organisms -- 3.1 Dealing with Vulnerable Key Species -- 4 Specific Protection Goals for Sediment Risk Assessment -- 5 Triggers for Prospective Sediment Risk Assessment in European Regulatory Frameworks -- 6 Data Requirements for Effect Assessment -- 6.1 Toxicity Data Requirements in European Regulatory Frameworks -- 6.2 Main Differences Between Existing OECD, ASTM and US-EPA Guidelines -- 6.3 Recommendation for a Suite of Benthic Test Species -- 7 Factors Affecting the Exposure of Sediment-Dwelling Organisms -- 7.1 Chemical Factors -- 7.2 Biological Factors -- 7.3 Spatial Factors -- 7.4 Temporal Factors -- 8 Exposure Concentration in Sediment ERA -- 8.1 The Ecotoxicologically Relevant Concentration for Sediment-Dwelling Organisms -- 8.2 Overview of Fate and Exposure Models -- 8.3 Linking Exposure to Effects in Sediment ERA -- 9 Tiered Effect Assessment for Benthic Test Species and Spiked Sediments -- 9.1 Tiered Approach -- 9.2 Tier-0 Effect Assessment Based on Equilibrium Partitioning -- 9.3 Tier-1 Effect Assessment Based on Protocol Tests for Benthic Invertebrates and Macrophytes -- 9.4 Tier-2 Approach on Basis of Laboratory Toxicity Data for Standard and Additional Benthic Invertebrates and/or Rooted Macro... -- 9.4.1 Geometric Mean Approach -- 9.4.2 Species Sensitivity Distribution (SSD) Approach -- 9.5 Tier-3 Approach Based on Semi-Field Experiments -- 9.6 Tier-4 Approach Based on Field Studies -- 9.7 Effect Models to Supplement the Experimental Tiers -- 9.7.1 Individual Level Models -- 9.7.2 Population-Level Models -- 9.7.3 Ecosystem Level Models.
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9.7.4 Spatially Explicit Models -- 9.8 Effect Assessment for Vertebrates -- 9.9 Effect Assessment for Microorganisms -- 10 Sediment Effect Assessment: Case Studies -- 10.1 The Pharmaceutical Ivermectin -- 10.1.1 Evaluation of Standard and Additional Toxicity Data for Pelagic Organisms and Ivermectin -- 10.1.2 Tier-0 Effect Assessment for Ivermectin on Basis of Equilibrium Partitioning -- 10.1.3 Tier-1 Effect Assessment for Benthic Organisms and Ivermectin -- 10.1.4 Tier-2 Effect Assessment Based on Standard and Additional Test Species for Ivermectin -- Geometric Mean Approach -- Species Sensitivity Distribution Approach -- 10.1.5 Tier-3 Effect Assessment Based on Micro/Mesocosm Experiments for Ivermectin -- 10.1.6 Conclusions from the Ivermectin Toxicity Data for Benthic Organisms -- 10.2 The Insecticide Chlorpyrifos -- 10.2.1 Evaluation of Standard and Additional Toxicity Data for Pelagic Organisms and Chlorpyrifos -- 10.2.2 Tier-0 Effect Assessment for Chlorpyrifos Based on Equilibrium Partitioning -- 10.2.3 Tier-1 Effect Assessment for Benthic Organisms and Chlorpyrifos -- 10.2.4 Tier-2 Effect Assessment Based on Standard and Additional Test Species for Chlorpyrifos -- Geometric Mean Approach -- Species Sensitivity Distribution Approach -- 10.2.5 Tier-3 Effect Assessment Based on Micro/Mesocosm Experiments -- 10.2.6 Conclusions from the Chlorpyrifos Toxicity Data for Benthic Organisms for Chlorpyrifos -- 10.3 The Biocide Tributyltin -- 10.3.1 Evaluation of Standard and Additional Toxicity Data for Pelagic Organisms and Tributyltin -- 10.3.2 Tier-0 Effect Assessment for Tributyltin Based on Equilibrium Partitioning -- 10.3.3 Tier-1 Effect Assessment for Benthic Organisms and Tributyltin -- 10.3.4 Tier-2 Effect Assessment Based on Standard and Additional Test Species for Tributyltin -- Geometric Mean Approach.
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Species Sensitivity Distribution Approach -- 10.3.5 Tier-3 Effect Assessment Based on Micro/Mesocosm Experiments for Tributyltin -- 10.3.6 Conclusions from the Tributyltin Toxicity Data for Benthic Organisms -- 10.4 Main Outcomes from the Case Studies -- 11 Main Recommendations for Prospective ERA for Sediment-Bound Organic Chemicals and Outlook -- 11.1 Specific Protection Goals -- 11.2 Triggers for Prospective Sediment ERA -- 11.3 Linking Exposure to Effects -- 11.4 The Tiered Approach in Effect Assessment -- 12 Summary -- Appendix 1: List of Workshop Participants -- Appendix 2: List of Abbreviations -- References -- How Important Is Research on Pollution Levels in Antarctica? Historical Approach, Difficulties and Current Trends -- 1 Introduction -- 2 The Presence of Pollutants in Antarctica´s Environment -- 2.1 Abiotic Environment -- 2.1.1 Air -- 2.1.2 Snow and Ice -- 2.1.3 Soil and Permafrost -- 2.1.4 Catchment Areas -- 2.1.5 Ocean, Seas and Bottom Sediments -- 2.2 Biotic Environment -- 2.2.1 Plants -- 2.2.2 Crustaceans, Benthic Organisms and Fishes -- 2.2.3 Seabirds -- 2.2.4 Marine Mammals -- 3 Types of Pollutants Present in Antarctica´s Environment -- 4 Detailed Information Pertaining to Analytical Research in Antarctica -- 4.1 History of Research on the Chemical Composition of Samples from Antarctica -- 4.2 Pollution Concentration Levels Over Decades -- 4.3 Analytical Techniques in the Study of the Antarctic Environment -- 4.4 Impact of Research Station Activities on Pollution Levels -- 5 Summary and Conclusions -- References -- Important Issues in Ecotoxicological Investigations Using Earthworms -- 1 Introduction -- 2 Role of Earthworms in Soil Ecosystems -- 3 Advances in Earthworm Ecotoxicology -- 4 Biomarker Responses and Issue of Linkage to Higher Level Responses -- 4.1 Biomarkers.
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4.2 Changes at Different Levels of Biological Organization -- 4.3 Establishing the Link Between Responses at Different Levels of Biological Complexity -- 5 Effects of Mixtures -- 5.1 Environmental Pollutants as Mixtures -- 5.2 Effects of Mixtures on Earthworms -- 5.3 Assessment of Effects of Mixtures -- 6 Occurrence of Hormetic Effect -- 6.1 Hormesis -- 6.2 Hormetic Effect in Earthworms -- 6.3 Hormetic Effect in Ecotoxicological Investigations -- 7 Inclusion of Microcosmic Systems in Ecotoxicological Investigations -- 7.1 Characteristics of Soil Microcosm -- 7.2 Soil Microcosm in Ecotoxicological Studies -- 8 Effects of Temperature Change on Toxic Effects of Pollutants and Biomarker Responses in Earthworms -- 8.1 Effects of Temperature Change -- 8.2 Interactions Between Temperature Change and Pollutant Toxicity to Earthworms -- 8.3 The Need for Further Assessment of the Effect of Temperature on Pollutant Toxicity to Earthworms -- 9 Conclusions -- 10 Summary -- References -- Index.
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