Inbreeding In Small Populations Research Articles

Demographic and genetic effects on reproduction as related to population size in a rare, perennial herb, Senecio integrifolius (Asteraceae)

Seed-set of the rare and threatened plant Senecio integrifolius increased significantly with population size. Experimental stuthes as well as field observations showed this to be due to density-dependent seed-set (Allee effect). Hand-pollination revealed lower seed-set, and a lower germination rate of inbred progeny than of outbred progeny, with great differences among populations. Contrary to general predictions in models of minimum viable population sizes, the present study indicates little negative effects of inbreeding in small populations. A genetic load model was invoked to explain the results, hypothesizing that purging of deleterious alleles in small populations has reduced inbreeding depression. However, no clear correlation between population size and genetic load was found. The results in this paper suggest that demographic and environmental factors are of greater immediate importance than population genetics in determining extinction probabilities of small plant populations.

Allozyme Variation in the Rare Gulf Coast Endemic Polygonella macrophylla Small (Polygonaceae)

Abstract Polygonella macrophylla Small is a rare, perennial, primarily gynodioecious plant species endemic to a narrow zone of coastal sand pine scrub habitat along the Gulf of Mexico from Carrabelle, Florida, to Gulf Shores, Alabama (U.S.A.). The species is comprised of a crimson‐red flowered form (“rubra”), known from only two populations at the eastern distributional limit of the species, and a white/pink flowered form ("alba") represented by several populations throughout the remainder of the range of the species. An electrophoretic investigation revealed that commonly used measures of gene diversity are very close to expected values in “rubra” given the combination of ecological attributes displayed by the species; however, gene diversity in “alba” is much lower than expected. Population differentiation is high, with estimates of the coefficient of gene differentiation (GST) indicating that more than 30% of the diversity is among populations. Lack of gene flow among populations, estimated to be at most 0.6 migrating individuals per generation for the species, is a likely cause of greater population differentiation. High inbreeding, detected both within populations and within the species, is suggestive of high rates of self‐fertilization in hermaphroditic plants and/or biparental inbreeding in small populations.

Migration, selection and histocompatibility

The extreme polymorphism of the HLA system allows a very precise definition of populations by gene frequencies. The existence of several linked loci (HLA-A, B, C, D, DR) induces the possibility of detection of preferential chromosomes in populations (particular associations of alleles or linkage disequilibria). These linkage disequilibria indicate that the conditions required for Hardy-Weinberg equilibrium are not met. The linkage disequilibria can be used as indicators for the evaluation of genetic dift, founder effect and inbreeding in small populations or for the detection of selection and migration in larger populations.

Effects of selection and linkage on degree of inbreeding.

Monte Carlo computer techniques were employed to simulate inbreeding in small populations under regimes consisting of combinations of three degrees of linkage and three intensities of selection. Selection and linkage each significantly increased the rate of inbreeding in populations of a given size, although the effect of linkage was larger. Linkage contributions to bias in the coefficient of inbreeding may exceed those of selection in general, if one restricts comparisons to levels of the two factors that are similar with respect to the range of their possible values. Linkage also had a much larger effect than did selection on inflation of the variance of estimates of the coefficient of inbreeding. The joint effects of selection and linkage can have severe implications with respect to inbreeding in artificial selection programmes.