Species sensitivity distributions is a statistical or empirical distribution function to measure the varying sensitivities different species have to a chemical. Specialists in its use in toxicology, environmental science, and related disciplines first set out the general principles and history of the technique in North America and Europe, then describe its application as a criteria for environmental quality and as a tool for assessing ecological risk, evaluate its usefulness, and project its future. Their goal is to synthesize otherwise widely scattered information in the formal and informal literature, and to identify specific areas to improve the theory and practice. Annotation c. Book News, Inc., Portland, OR (booknews.com)
This book provides a critical review of the conceptual basis, strengths and weaknesses of using Species Sensitivity Distributions (SSDs) to model the effects of contaminants on ecosystems. For anyone developing or revising environmental criteria or standards, this book explores the pros and cons of using the SSD approach. For those applying and interpreting SSD-based criteria or standards, the book explains the basis for the numbers, thereby making it possible to correctly apply and defend them. For those performing ecological risk assessments, the book covers when and how to use SSDs including alternative assumptions, data treatments, computational methods, and available resources.
In spite of the growing importance of Species Sensitivity Distribution models (SSDs) in ecological risk assessments, the conceptual basis, strengths, and weaknesses of using them have not been comprehensively reviewed. This book fills that need. Written by a panel of international experts, Species Sensitivity Distributions in Ecotoxicology reviews the current SSD methods from all angles, compiling for the first time the variety of contemporary applications of SSD-based methods.
Beginning with an introduction to SSDs, the chapter authors review the issues surrounding SSDs, synthesizing the positions of advocates and critics with their own analysis of each issue. Finally, they discuss the prospects for future development, paving the way for improved future uses. In sum, this book defines the field of SSD modeling and application. It reveals a lively field, with SSD-applications extending beyond legally adopted quality criteria to other applications such as Life-Cycle Analysis.
For anyone developing or revising environmental criteria or standards, this book explores the pros and cons of using the SSD approach. For anyone who needs to apply and interpret SSD-based criteria or standards, the book explains the basis for the numbers, thereby making it possible to correctly apply and defend them. For anyone performing ecological risk assessments, the book covers when and how to use SSDs including alternative assumptions, data treatments, computational methods, and available resources. Species Sensitivity Distributions in Ecotoxicology provides you with a clear picture of these standard models for estimating ecological risks from laboratory toxicity data.
