Behera, Narayan and Nanjundiah, Vidyanand (1996) The Consequences of Phenotypic Plasticity in Cyclically Varying Environments: A Genetic Algorithm Study. In: Journal of Theoretical Biology, 178 (2). pp. 135-144.
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By “phenotypic plasticity” we refer to the capacity of a genotype to exhibit different phenotypes, whether in the same or in different environments. We have previously demonstrated that phenotypic plasticity can improve the degree of adaptation achieved via natural selection (Behera & Nanjundiah, 1995). That result was obtained from a genetic algorithm model of haploid genotypes (idealized as one-dimensional strings of genes) evolving in a fixed environment. Here, the dynamics of evolution is examined under conditions of a cyclically varying environment. We find that the rate of evolution, as well as the extent of adaptation (as measured by mean population fitness) is lowered because of environmental cycling. The decrease is adaptation caused by a varying environment can, however, be partly or wholly compensated by an increase in the degree of plasticity that a genotype is capable of. Also, the reduction of population fitness caused by a variable environment can be partially offset by decreasing the total number of genetic loci. We conjecture that an increase in genome size may have been among the factors responsible for the evolution of phenotypic plasticity.
|Item Type:||Journal Article|
|Additional Information:||copyright of this article belongs to Elsevier Science.|
|Department/Centre:||Division of Biological Sciences > Molecular Reproduction, Development & Genetics (formed by the merger of DBGL and CRBME)
Division of Biological Sciences > Centre for Ecological Sciences
|Date Deposited:||08 Jan 2010 12:51|
|Last Modified:||19 Sep 2010 05:53|
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