Population structure of species: Eco-geographic units and genetic differentiation between populations

被引:0
作者
L. A. Zhivotovsky
机构
[1] Russian Academy of Sciences,Vavilov Institute of General Genetics
来源
Russian Journal of Marine Biology | 2016年 / 42卷
关键词
population; ecology; environment; species; genetic differentiation; protection of natural resources; biogeocenosis; biochorological unit; adaptation; phenotypic trait; DNA marker; reproductive isolation; gene flow; genetic drift;
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学科分类号
摘要
A two-step approach, based on a combined use of environmental, geographic, and genetic data, is suggested for studying population structures of species. First, populations are grouped into eco-geographic units (EGUs) according to the environmental gradients in the studied part of the species range, the types of life strategies, and other non-genetic characteristics that are presumably associated with adaptation and interpopulation gene flows. Second, the selected EGUs are tested for their congruence with genetic data by comparing the genetic differentiation between populations within EGUs to that between populations of different EGUs. Some of the issues discussed are as follows: the relationship of the EGU concept with the concepts of biogeocenosis and evolutionarily significant units (ESUs); designing EGUs in practice; the level of EGUs in a hierarchical population structure; and the weights of genetic and phenotypic markers in estimating population differentiation. The population structure of a salmonid fish, the Sakhalin taimen, in terms of eco-geographic units is considered as an example.
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页码:373 / 382
页数:9
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共 63 条
  • [1] Glotov N.V.(1975)Natural-historical and population-based study of sessile oak (Quercus petraea Liebl.) in the northwestern Caucasus Zh. Obshch. Biol. 36 537-554
  • [2] Semerikov L.F.(1981)The population structure of Quercus robur (Fagaceae) in the Caucasus Bot. Zh. 66 1407-1418
  • [3] Vereshchagin A.V.(2013)On the methodology of studying population structure using genetic markers (with reference to pink salmon Oncorhynchus gorbuscha) J. Ichthyol. 53 359-364
  • [4] Glotov N.V.(2013)Intra-species reproductive strategies in Pacific salmon of the genus Oncorhynchus (fundamental similarity and specific differences) Izv. Tikhookean. Nauchno–Issled. Inst. Rybn. Khoz. Okeanogr. 173 103-118
  • [5] Semerikov L.F.(2007)Provisory zoning of the Far Eastern Federal Okrug of the Russian Federation for the zoogeographical purposes Chteniya pamyati A.I. Kurentsova (Reading in the Memory of A.I. Kurentsov), Vladivostok: Dal’nauka 18 29-47
  • [6] Kazantsev V.S.(1966)On elementary biochorological subdivisions of the biosphere Byull. Mosk. O-va. Ispyt. Prir., Otd. Biol. 71 123-132
  • [7] Shutilov V.A.(1970)Some aspects of the doctrine on biosphere and biogeocenoses Nauchn. Dokl. Vyssh. Shk. Biol. Nauk 4 46-52
  • [8] Zhivotovsky L.A.(2008)Landscape genetics and hierarchical genetic structure in Atlantic salmon: the interaction of gene flow and local adaptation Mol. Ecol. 17 2382-2396
  • [9] Ivankov V.N.(1955)A review of some fundamental concepts and problems of population genetics Cold Spring Harbor Symp. Quant. Biol. 20 1-15
  • [10] Ivankova E.V.(2011)Extent and scale of local adaptation in salmonid fishes: review and meta-analysis Heredity 106 404-420
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