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Full Product Details

Author:   G.P. Cheplick
Publisher:   Oxford University Press Inc
Imprint:   Oxford University Press Inc
Dimensions:   Width: 23.60cm , Height: 2.30cm , Length: 16.00cm
Weight:   0.567kg
ISBN:  

9780199988327

ISBN 10:   0199988323
Pages:   312
Publication Date:   27 August 2015
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Contents Preface Acknowledgments 1. The Domain of Evolutionary Ecology 1.1 Introduction: The individual in ecology and evolution 1.2 Plant evolutionary ecology 1.3 The time scale of evolutionary ecology 1.4 Principles and general themes of evolutionary ecology 2. Natural Selection in the Plant Population 2.1 Natural selection as a population attribute 2.1.1 Classifying the agents of selection 2.1.2 Natural selection as cause vs. effect 2.1.3 How natural selection causes microevolution 2.1.4 The meaning of genotype by environment interactions 2.1.5 Can selection occur without an external agent? 2.1.6 Internal agents and the evolutionary role of development 2.2 Allelic, genotypic, and phenotypic selection 2.2.1 The classic case of Avena barbata 2.2.2 Deviations from Hardy-Weinberg expectations 2.2.3 Selection analysis of quantitative traits 2.2.4 Experimental approaches to natural selection 2.3 Natural selection in plants: what have we learned? 3. The Common Garden Approach 3.1 Introduction 3.2 Single common garden, no environmental factors varied 3.3 Multiple common gardens, no environmental factors varied 3.4 Single or multiple common gardens, one or more environmental factors varied 3.5 Natural selection in the common garden 3.6 Questions and considerations in using common garden experiments 3.7 Utility and applications of the common garden approach 4. Reciprocal Transplant Experiments 4.1 Introduction 4.2 A brief aside on adaptation 4.3 Testing hypotheses with the standard design 4.4 Diversity of reciprocal transplant approaches 4.4.1 Modification and expansion of reciprocal transplant designs 4.4.2 Long-term experiments 4.5 Selection coefficients and selection gradients 4.6 Reasons for the lack of local adaptation 4.7 Reciprocal transplant experiments: where to from here? 5. Molecular Approaches 5.1 Introduction: what is molecular ecology? 5.2 Molecular genetic variation within and between populations 5.2.1 Allozymes 5.2.2 DNA markers 5.2.3 Life history traits and molecular variation 5.2.4 Comparisons of population differentiation: molecular markers vs. quantitative traits 5.3 Molecular approaches to studying selection and adaptation 5.3.1 Correlations of molecular markers with environmental variables 5.3.2 The molecular genetic basis of adaptation 5.4 Other uses of molecular markers 5.4.1 Gene flow 5.4.2 Fine-scale genetic structure 5.4.3 Hybridization 5.5 Wrap up 6. Abiotic Agents of Selection 6.1 Introduction 6.2 Edaphic factors 6.2.1 Population responses to distinct soil types 6.2.2 Metalliferous soils 6.3 Climatic factors 6.3.1 Temperature 6.3.2 Precipitation, drought, and soil water 6.3.3 Climate change 6.4 Other abiotic factors 6.4.1 Light 6.4.2 Salt 6.5 Wrap up 7. Biotic Interactions. I. Competition & Facilitation 7.1 The ubiquity of biotic interactions 7.2 Competition and competitive ability 7.3 Genetic variation in competitive ability 7.4 Differentiation, local adaptation, and competition 7.4.1 Genetic differentiation 7.4.2 Reciprocal transplants and local adaptation 7.4.3 Fine-scale adaptation to neighbors 7.5 Genotypic interactions and competitive outcomes 7.5.1 Genetic relatedness and intraspecific competition 7.5.2 Sibling competition and kin selection 7.6 Selection experiments 7.7 Other genetic aspects of competition 7.8 Allelopathy 7.9 Facilitation 7.10 Wrap up 8. Biotic Interactions. II. Microbial Symbiosis 8.1 The ubiquity of plant-microbe interactions 8.2 Parasites/pathogens 8.2.1 Genetic variation in host resistance 8.2.2 Local adaptation 8.2.3 Host sexual reproduction 8.3 Rhizobial bacteria 8.4 Mycorrhizae 8.5 Systemic leaf endophytes 8.5.1 Genetic variation in host response 8.5.2 Local adaptation 8.6 Wrap up 9. Biotic Interactions. III. Animals 9.1 Animals as agents of natural selection 9.2 Herbivory 9.2.1 Quantitative genetic variation and selection for resistance and tolerance 9.2.2 Selection on quantitative candidate traits 9.2.3 Plant adaptation 9.2.4 Molecular genetic approaches 9.3 Pollination 9.3.1 Genetic variation in floral traits 9.3.2 Pollinator-mediated selection 9.3.3 Floral adaptation 9.3.4 Molecular genetic tools 9.4 Fruit and seed dispersal 9.4.1 Selection mediated by fruit consumers 9.4.2 Molecular genetic tools 9.5 Wrap up 10. Future Directions 10.1 A few predictions 10.2 More than a few questions 10.2.1 Natural selection and adaptation 10.2.2 Biotic interactions

Reviews

[T]his volume is a solid resource on plant evolutionary biology for professionals, graduate, and undergraduate students. ... [T]his volume is a solid addition to the library of any person or institution interested in plant research and plant evolutionary ecology. Highly recommended. S. T. Meiers, CHOICE

The author has crafted a book that spans the breadth and depth of research on natural plant populations and their dynamics. I will certainly recommend this publication to new laboratory members, and will undoubtedly find myself flipping to particular chapters prior to embarking on new projects. * Jannice Friedman, Quarterly Review of Biology *

Approaches to Plant Evolutionary Ecology, by Gregory Cheplick, provides a comprehensive overview of the toolkit for adaptation studies and in doing so effectively passes the torch of the discipline onto the next generation. One of the greatest strengths of the book is that it is written by a single author and follows a clear narrative logic, with the process of evolutionary adaptations being a unifying theme throughout. This makes it a perfect book for use in the classroom. --RHODORA

Author Information

Gregory P. Cheplick, Ph.D. Professor of Biology, is a plant ecologist at the College of Staten Island, City University of New York. His research is on the population biology of herbaceous plants, including grasses and their fungal endophytes, in relation to abiotic and biotic conditions.

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