Abstract
We report the genetic structure, relatedness and mating structure of a population of the endangered giant anteater Myrmecophaga tridactyla Linnaeus, 1758 in the Emas National Park, Brazil, based on variability at five microsatellite loci. Additionally, we addressed the hypothesis that the M. tridactyla population studied has low levels of polymorphism and high levels of inbreeding and relatedness and that animals with overlapping home range are highly related. All five microsatellite loci displayed low levels of polymorphism and of expected and observed heterozygosity. The low level of polymorphism and high inbreeding showed by the population studied may be the outcome of high mortality and reduction in population size due to recurrent fire events in the Emas National Park, as reported in 1994. The reduction in population size may have led to a higher frequency of mating between closely related animals, augmented by the isolation of the population in the park because of the expansion of agricultural land and fragmentation of the Cerrado environment. The natural history of M. tridactyla and the phylopatric (sex-biased dispersal) behavior of females should increase the effects of isolation and bottlenecking, decreasing gene flow and increasing inbreeding. However, the low levels of polymorphism found in this population may simply be due to the natural history and evolution of M. tridactyla as reported for other species. The genetic structure and dynamics of this population needs to be investigated more profoundly in order to provide sound data for the design of conservation strategies for M. tridactyla in the Emas National Park.
Highlights
The deleterious effects of inbreeding have been recognized for many years (Darwin, 1876) and the effects of inbreeding in population genetic structure has been extensively discussed by Sewall Wright (Wright, 1917, 1921, 1931, 1937, 1946, 1951 and 1965) who developed theoretical support and statistical methods to measure the extend of inbreeding in populations
The effects of inbreeding and the loss of genetic diversity in small and isolated population have been of major concern because of their deleterious effects on population viability(Charlesworth and Charlesworth, 1987; Frankham, Send correspondence to Rosane Garcia Collevatti
In this paper we report the genetic structure, relatedness and mating structure of a population of M. tridactyla from Emas National Park and discuss the potential consequences for conservation
Summary
The deleterious effects of inbreeding have been recognized for many years (Darwin, 1876) and the effects of inbreeding in population genetic structure has been extensively discussed by Sewall Wright (Wright, 1917, 1921, 1931, 1937, 1946, 1951 and 1965) who developed theoretical support and statistical methods to measure the extend of inbreeding in populations. Habitat loss may lead to a decrease in population size and isolation among remnant populations During such process, genetic variability may be lost through genetic bottlenecks, while subsequently founder effects, genetic drift and restricted gene flow may increase population genetic isolation and divergence (Terborgh and Winter, 1980; Gilpin and Soulé, 1986). Genetic variability may be lost through genetic bottlenecks, while subsequently founder effects, genetic drift and restricted gene flow may increase population genetic isolation and divergence (Terborgh and Winter, 1980; Gilpin and Soulé, 1986) These genetic effects, added to the possible enhancement of inbreeding, may lead to fixation of deleterious alleles and endanger species persistence in population fragments and jeopardize their conservation, especially in populations which were originally large and widely distributed (Gilpin and Soulé, 1986; Frankham et al, 2002)
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