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Literature DB >> 1878415

Simulation of local evolutionary dynamics of small populations.

Abstract

A simple stochastic model assuming continuous traits, normally distributed modifications, selection for fertility and multiplicative fitness was used to simulate phenotypic evolution by "reproducing individuals" in a given fitness landscape. Of particular interest was how small populations cross saddles separating distinct adaptive peaks. The simulated evolution exhibits a strong dualism: at the same level of reproductive errors, sexual reproduction provides significantly better local adaptation and asexual reproduction provides significantly better adaptive dynamics.

Mesh：

Year: 1991 PMID： 1878415 DOI： 10.1007/bf00197288

Source DB: PubMed Journal: Biol Cybern ISSN： 0340-1200 Impact factor: 2.086

13 in total

Simulation of local evolutionary dynamics of small populations.

1. THE RELATION OF RECOMBINATION TO MUTATIONAL ADVANCE.

2. Error thresholds of replication in finite populations mutation frequencies and the onset of Muller's ratchet.

3. Excursions along the Interface between Disruptive and Stabilizing Selection.

4. Physical aspects of evolutionary optimization and adaptation.

5. HOW MUCH HERITABLE VARIATION CAN BE MAINTAINED IN FINITE POPULATIONS BY MUTATION-SELECTION BALANCE?

6. Handicapped individua in evolutionary processes.

7. A computer model of evolutionary optimization.

8. Expected time for random genetic drift of a population between stable phenotypic states.

9. Polynucleotide evolution and branching processes.

10. The hypercycle. A principle of natural self-organization. Part A: Emergence of the hypercycle.

1. Optimization by hierarchical mutant production.