一个蝴蝶集合种群中扩散率变异的候选基因座。
A candidate locus for variation in dispersal rate in a butterfly metapopulation.
作者信息
Haag Christoph R, Saastamoinen Marjo, Marden James H, Hanski Ilkka
机构信息
University of Helsinki, Department of Biological and Environmental Sciences, PO Box 65, 00014 Helsinki, Finland.
出版信息
Proc Biol Sci. 2005 Dec 7;272(1580):2449-56. doi: 10.1098/rspb.2005.3235.
Abstract
Frequent extinctions of local populations in metapopulations create opportunities for migrant females to establish new populations. In a metapopulation of the Glanville fritillary butterfly (Melitaea cinxia), more mobile individuals are more likely to establish new populations, especially in habitat patches that are poorly connected to existing populations. Here we show that flight metabolic rate and the frequency of a specific allele of the metabolic enzyme phosphoglucose isomerase (pgi) were both highest in newly established, isolated populations. Furthermore, genotypes with this pgi allele had elevated flight metabolic rates. These results suggest that genetic variation in pgi or a closely linked locus has a direct effect on flight metabolism, dispersal rate, and thereby on metapopulation dynamics in this species. These results also contribute to an emerging understanding of the mechanisms by which population turnover in heterogeneous landscapes may maintain genetic and phenotypic variation across populations.
摘要
集合种群中本地种群的频繁灭绝为迁徙雌性创造了建立新种群的机会。在格兰维尔豹纹蝶(Melitaea cinxia)的集合种群中,移动性更强的个体更有可能建立新种群,尤其是在与现有种群联系不佳的栖息地斑块中。我们在此表明,飞行代谢率和代谢酶磷酸葡萄糖异构酶(pgi)特定等位基因的频率在新建立的隔离种群中均最高。此外,具有该pgi等位基因的基因型具有更高的飞行代谢率。这些结果表明,pgi或紧密连锁位点的遗传变异对飞行代谢、扩散率有直接影响,进而对该物种的集合种群动态产生影响。这些结果也有助于人们进一步理解异质景观中的种群更替可能维持种群间遗传和表型变异的机制。
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