A DIRECT ASSESSMENT OF THE ROLE OF GENETIC DRIFT IN DETERMINING ALLELE FREQUENCY VARIATION IN POPULATIONS OF EUPHYDRYAS EDITHA
Open Access
- 1 July 1985
- journal article
- research article
- Published by Oxford University Press (OUP) in Genetics
- Vol. 110 (3) , 495-511
- https://doi.org/10.1093/genetics/110.3.495
Abstract
Estimates of allele frequencies at six polymorphic loci were collected over eight generations in two populations of Euphydryas editha. We have estimated, in addition, the effective population size for each generation for both populations with results from mark-recapture and other field data. The variation in allele frequencies generated by random genetic drift was then studied using computer simulations and our direct estimates of effective population size. Substantial differences between observed values and computer-generated expected values assuming drift alone were found for three loci (Got, Hk, Pgi) in one population. These observations are consistent with natural selection in a variable environment.This publication has 27 references indexed in Scilit:
- ON THE ESTIMATION OF POPULATION SIZE FROM ALLELE FREQUENCY CHANGESGenetics, 1980
- STATISTICAL STUDIES ON PROTEIN POLYMORPHISM IN NATURAL POPULATIONS. III. DISTRIBUTION OF ALLELE FREQUENCIES AND THE NUMBER OF ALLELES PER LOCUSGenetics, 1980
- DRIFT OR SELECTION: A STATISTICAL TEST OF GENE FREQUENCY VARIATION OVER GENERATIONSGenetics, 1977
- ADAPTATION AT SPECIFIC LOCI. I. NATURAL SELECTION ON PHOSPHOGLUCOSE ISOMERASE OF COLIAS BUTTERFLIES: BIOCHEMICAL AND POPULATION ASPECTSGenetics, 1977
- Multiple Insemination and Male Sexual Selection in Natural Populations of Drosophila pseudoobscuraThe American Naturalist, 1977
- STATISTICAL STUDIES ON PROTEIN POLYMORPHISM IN NATURAL POPULATIONS I. DISTRIBUTION OF SINGLE LOCUS HETEROZYGOSITYGenetics, 1977
- HETEROSIS OR NEUTRALITY1977
- Checkerspot Butterflies: A Historical PerspectiveScience, 1975
- MEASUREMENT OF GENE FREQUENCY DRIFT IN SMALL POPULATIONSEvolution, 1955
- The spread of a gene in natural conditions in a colony of the moth Panaxia dominula L.Heredity, 1947