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ENVIRONMENTAL AND ECOLOGICAL CHEMISTRY - Volume III
Environmental and Ecological Chemistry is a component of Encyclopedia of Chemical Sciences, Engineering and Technology Resources in the global Encyclopedia of Life Support Systems (EOLSS), which is an integrated compendium of twenty one Encyclopedias. The Theme on Environmental and Ecological Chemistry prsents the essential aspects such as: Fundamental Environmental Chemistry; Atmospheric Chemistry; Soil Chemistry; Aquatic Chemistry; Ecological Chemistry; Chemistry of Organic Pollutants Including Agrochemicals. These volumes are aimed at the following five major target audiences: University and College students Educators, Professional practitioners, Research personnel and Policy analysts, managers, and decision makers and NGOs.
General Principles of Ecological Risk Assessment
The book provides a comprehensive and up-to-date overview of the most modern concepts and tools needed to perform prospective and retrospective ecological risk assessments of environmental stressors, and will therefore be useful for students, teachers, scientists, regulators, and professionals in environmental consulting. Experimental methods and predictive theoretical approaches are described to evaluate and estimate the exposure of ecosystems to environmental stressors and to investigate their effects on different hierarchical levels of ecological organization (individuals, populations, communities, ecosystems). Specific sections are dedicated to the persistence and bioavailability of contaminants, bioaccumulation models, and the mechanisms of global pollution. Risk assessment procedures for the most relevant classes of traditional and emerging stressors, including physical agents, are described in detail in specific sections. Finally, regulatory instruments and public perception of risk are discussed.
Plant Contamination
This book describes the physiological and anatomical principles and the chemical and physical factors that determine uptake, translocation, accumulation, loss, and metabolism of anthropogenic chemicals in plants. Expert authors in the fields of biology, chemistry, ecology, environmental physics, and biochemistry provide recently developed methods and models for estimation of the behavior of environmental chemicals in the soil-plant-air system-information that is essential in the hazard assessment of new and existing chemicals.
DNA and RNA Origami
This volume detials diverse methodological approaches on the assembly and applications of DNA origami assemblies. Chapters guide readers through different synthetic and computational methods, isolation and structural characterization of 2D and 3D DNA origami nanoarchitectures, nanophotonics, drug delivery, biophysics, and synthetic biology.Written in the successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, DNA and RNA Origami: Methods and Protocols aims to serve as a guideline describing the current state-of-the-art assembly methodologies and applications of DNA origami nanostructures.
OECD Guidelines for the Testing of Chemicals / OECD Series on Testing and Assessment Report of the OECD Workshop on Improving the Use of Monitoring Data in the Exposure Assessment of Industrial Chemicals
This document reports on a workship on improving the Use of Monitoring Data in the Exposure Assessment of Industrial Chemicals.
Regulation for Chemical Safety in Europe: Analysis, Comment and Criticism
Many European Union Directives seek to minimize the potential for harm to humans and the environment arising from the use of chemicals. This book takes an interdisciplinary, selective look at the effector mechanisms employed in such directives. It covers the pre-marketing use of toxicology to identify the hazardous properties of chemicals, acknowledging its shortcomings, while contrasting the scientific method with the precautionary principle in developing risk-management practices. The book then goes on to describe the use of bio-indicators, chemical analyses and mathematical modelling for prediction, or to determine the adequacy of chemical safety legislation. The environmental risk assessment of priority chemicals is described and the impact of pesticides on sustainability in agriculture is discussed from the differing standpoints of agronomy and economics. Audience: All professionals concerned with the safe management of chemicals and their use, including teachers, practitioners, policy makers or legislators.
OECD Guidelines for the Testing of Chemicals / OECD Series on Testing and Assessment Guidance Document on the Use of Multimedia Models for Estimating Overall Environmental Persistance and Long-Range Transport
This Guidance Document concerns using multimedia models, i.e. generic evaluative models that can calculate overall environmental persistence (Pov) and potential for long-range transport (LTRP) covering multiple compartments such as air, water, sediment and soil.
OECD Guidelines for the Testing of Chemicals / OECD Series on Testing and Assessment Report of the OECD/UNEP Workshop on the Use of Multimedia Models for Estimating Overall Environmental Persistence and Long Range Transport in the Context of PBTS/POPS Assessment
This document contains the report from the OECD/UNEP Workshop on the Use of Multimedia Models for Estimating Overall Persistence and Long-range Transport in the Context of PBTs/POPs Assessment, held on 29-31 October 2001 in Ottawa, Canada, together ...
Modelling of Environmental Chemical Exposure and Risk
Mathematical models are being increasingly used to estimate the concentrations of a wide range of substances in the environment for a variety of reasons, including government control and legislation, and risk and hazard estimation. Exposure assessment has to be performed for many types of substances, including pesticides, industrial chemicals, pollutants, accidental discharges, etc. The interpretation of the results of model equations should always bear in mind the purpose for which the model used was built in the first place. Further, models are always an abstraction of reality, requiring simplifying assumptions to keep the models within the restraints posed by computer performance and/or scientific knowledge. The present book treats the theme of modelling chemical exposure and risk in terms of four main topics: model characteristics, applications, comparison of estimated with measured concentrations, and modelling credibility.
