Über den Autor
Kenneth F. Haynes is a Professor of Entomology in the Department of Entomology, University of Kentucky, Lexington, Kentucky.
Preface. 1. Bioassays with Marine Microorganisms; K.M. Jenkins, et al. 2. Bioassays with Marine and Freshwater Macroorganisms; M.E. Hay, et al. 3. Bioassay Methods for Fungi and Oomycetes; J.L. Kerwin, M.J. Semon. 4. Bioassays for Allelopathy in Terrestrial Plants; J.T. Romeo, J.D. Weidenhamer. 5. Bioassay Methods with Terrestrial Invertebrates; J.D. Hare. 6. Bioassay Methods for Amphibians and Reptiles; R.T. Mason, et al . 7. Bioassays for Mammals and Birds; D.L. Nolte, J.R. Mason. Index.
Identification of chemicals that affect the naturally occurring interactions be tween organisms requires sophisticated chemical techniques, such as those docu mented in volume 1, in combination with effective bioassays. Without an effective bioassay, the identification becomes akin to looking for a needle in a haystack, but without any idea of what a needle looks like. To a large extent serniochemical identifications must be driven by bioassays. The design of bioassays for use in chemical ecology is governed by the sometimes conflicting objectives of ecological relevance and the need for simplic ity. Bioassay design should be based on observations of the interactions between organisms in their natural context, a theme that appears throughout this volume. As a result, this volume is as much about ecology and behavior as it is about specific methods. It is impossible to design a relevant bioassay, whether it is simple or complex, without understanding at least the fundamentals of how chemical cues or signals mediate the interaction in nature. Thus, the development of bioassay methods must be driven by an understanding of ecology and a knowledge of the natural history of the organisms under study. Given such an understanding, it is often possible to design assays that are both ecologically relevant and easy to perform.
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