Analysis of Evolutionary Processes: The Adaptive Dynamics Approach and Its ApplicationsPrinceton University Press, 2008. 2. 11. - 360ÆäÀÌÁö Quantitative approaches to evolutionary biology traditionally consider evolutionary change in isolation from an important pressure in natural selection: the demography of coevolving populations. In Analysis of Evolutionary Processes, Fabio Dercole and Sergio Rinaldi have written the first comprehensive book on Adaptive Dynamics (AD), a quantitative modeling approach that explicitly links evolutionary changes to demographic ones. The book shows how the so-called AD canonical equation can answer questions of paramount interest in biology, engineering, and the social sciences, especially economics. |
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... respect to that locus); otherwise, it is heterozygous. Thus, the phenotypic effect of a dominant homozygous locus is the same as that of an heterozygous locus with a dominant and a recessive allele. For example, there are two genes ...
... respect to their conspecifics. Such phenotypic changes reflect heritable changes in the organism genetic material, i.e., what biologists call mutations. Heritable phenotypic variations have been documented in many organisms and for all ...
... respect to that phenotype. In reality, selection may be interrupted by a mutation, by the arrival of a new phenotype from outside, or by a perturbation of the abiotic environment, events that prevent the system from reaching an ...
... respect to the resident groups. Disadvantageous mutations, e.g., those causing the malfunction of important proteins, reduce the survival and reproductive success of affected individuals, so that mutants will be underrepresented in the ...
... respect to well-adapted residents. This belief, however, neglects the fact that the coevolving populations define the biotic component of the environment in which they live, so that the expression ¡°evolution in a constant environment ...
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1 | |
Chapter 2 Modeling Approaches | 43 |
Chapter 3 The Canonical Equation of Adaptive Dynamics | 74 |
Chapter 4 Evolutionary Branching and the Origin of Diversity | 119 |
Chapter 5 Multiple Attractors and Cyclic Evolutionary Regimes | 138 |
Chapter 6 Catastrophes of Evolutionary Regimes | 153 |
Chapter 7 BranchingExtinction Evolutionary Cycles | 172 |
Chapter 8 Demographic Bistability and Evolutionary Reversals | 186 |
Chapter 10 The First Example of Evolutionary Chaos | 231 |
Appendix A Secondorder Dynamical Systems and Their Bifurcations | 243 |
Appendix B The Invasion Implies Substitution Theorem | 272 |
Appendix C The Probability of Escaping Accidental Extinction | 277 |
Appendix D The Branching Conditions | 281 |
Bibliography | 287 |
Index | 325 |
Chapter 9 SlowFast Populations Dynamics and Evolutionary Ridges | 204 |