231 pages, illustrations, tables
This first volume in Genetics and Ecotoxicology provides a detailed treatment in ecotoxicology and stresses why genetics is important in understanding if and how chemical contaminants affect populations. Written by an array of international contributors from various fields covering mammals, invertebrates, fish, plants, as well as molecular ecotoxicology, Genetics and Ecotoxicology considers both ecological/evolutionary consequences and practical implications of the interplay between chemical toxicants and the genetic population.
In broadening the understanding of ecological response, this resource ranges from molecular to classical genetics, from plant to animal, from asexual to sexual, touching on some fundamental issues of evolutionary biology. In addition, gaps in our present understanding of genetic and ecotoxicological processes and future research directions have been identified.
1. Genetics and Ecotoxicology - Insights from the Interface Valery Forbes
2. The Evolution of Heavy Metal Tolerance in Plants: Adpatations, Limits, and Costs A. Johnathan Forbes
3. Mercury Tolerance, Population Effects, and Population Genetics in the Mummichog, Fundulus heteroclitus Judith Weis, Nicolay Mugue, Peddrick Weis
4. Chemical-Induced Changes in the Genetic Structure of Populations - Effects on Allozymes Robert Gillespie and Sheldon Guttman
5. Adaptation to Metals in the Midge, Chironomusriparius - a Case Study in the River Dommel Jaap Postma and Dick Groenendijk
6. The Influence of Contamination Complexity on Adaptation to Environmental Contaminants Paul Klerks
7. Natural Selection in Contaminated Environments - a Case Study Using RAPD Genotypes Christopher Theodrakis and Lee Shugart
8. Structural Damage to DNA in Response to Toxicant Exposure Lee Shugart
9. Toxicity and Sexual Reproduction In Rotifers: Reduced Resting Egg Production and Heterozygosity Loss Terry Snell, Manuel Serra andMaria Jose Carmona
10. The Influence of Reproductive Mode and its Genetic Consequences on the Responses of Populations to Toxicants - a Case Study Valery Forbes, Vibeke Moller, Robert Browne and Michael Depledge
11. Genetic Variation in the Response of Daphnia to Toxic Substances: Implication for Risk Assessment Donald Baird and Carlos Barata Barata, University of Stirling, UK, Robert Browne, Wake Forest University, USA, Maria Jose Carmona, University of Valencia, Spain, Michael Depledge, University ofPlymouth, Valery Forbes, Roskilde University, Denmark, Robert Gillespie, Indiana University-Purdue University, USA, Dick Groenendijk, University of Amsterdam, The Netherlands, Sheldon Guttman, Miami University, USA, Paul Klerks, University of SouthernLouisiana, USA, Nicolay Mugue, Institute for Developmental Biology, Russia, Vibeke Moller, Danish Environmental Protection Agency, Denmark, Jaap Folkert Postma, Aquasense Consultants, The Netherlands, Lee Shugart, LR Shugart and Associates Inc. , USA,Manuel Serra, University of Valencia, Spain, A. Johnathan Shaw, Duke University, USA, Terry Snell, Georgia Institute of Technology, USA, Christopher Theodrakis, Texas A & M University, USA, Judith Weis, Rutgers University, USA, Peddrick Weis, New Jersey Medical School, USA
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Valery E. Forbes is at Roskilde University in Denmark