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Contribution of conservation genetics in assessing neotropical freshwater fish biodiversity

Human activities have a considerable impact on hydrographic systems and fish fauna. The present review on conservation genetics of neotropical freshwater fish reveals that DNA analyses have been promoting increased knowledge on the genetic structure of fish species and their response to environmenta...

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Published in:	Brazilian journal of biology 2008-11, Vol.68 (4 Suppl), p.1039-1050
Main Authors:	Piorski, N M, Sanches, A, Carvalho-Costa, L F, Hatanaka, T, Carrillo-Avila, M, Freitas, P D, Galetti, Jr, P M
Format:	Article
Language:	English
Subjects:	Animals Biodiversity BIOLOGY biology conservation Conservation of Natural Resources DNA - analysis fish population Fishes - classification Fishes - genetics Fresh Water Genetic Markers Genetic Variation Humans Molecular Biology molecular genetics Phylogeny Population Density Tropical Climate
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description	Human activities have a considerable impact on hydrographic systems and fish fauna. The present review on conservation genetics of neotropical freshwater fish reveals that DNA analyses have been promoting increased knowledge on the genetic structure of fish species and their response to environmental changes. This knowledge is fundamental to the management of wild fish populations and the establishment of Evolutionary Significant Units capable of conserving genetic integrity. While population structuring can occur even in long-distance migratory fish, isolated populations can show reduced genetic variation and be at greater risk of extinction. Phylogeography and phylogeny have been powerful tools in understanding the evolution of fish populations, species and communities in distinct neotropic environments. Captive fish can be used to introduce new individuals and genes into the wild and their benefits and disadvantages can be monitored through genetic analysis. Understanding how fish biodiversity in neotropical freshwaters is generated and maintained is highly important, as these habitats are transformed by human development and fish communities are increasingly exploited as food sources to sustain a growing human population.
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The present review on conservation genetics of neotropical freshwater fish reveals that DNA analyses have been promoting increased knowledge on the genetic structure of fish species and their response to environmental changes. This knowledge is fundamental to the management of wild fish populations and the establishment of Evolutionary Significant Units capable of conserving genetic integrity. While population structuring can occur even in long-distance migratory fish, isolated populations can show reduced genetic variation and be at greater risk of extinction. Phylogeography and phylogeny have been powerful tools in understanding the evolution of fish populations, species and communities in distinct neotropic environments. Captive fish can be used to introduce new individuals and genes into the wild and their benefits and disadvantages can be monitored through genetic analysis. 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source	SciELO Brazil; IngentaConnect Journals
subjects	Animals Biodiversity BIOLOGY biology conservation Conservation of Natural Resources DNA - analysis fish population Fishes - classification Fishes - genetics Fresh Water Genetic Markers Genetic Variation Humans Molecular Biology molecular genetics Phylogeny Population Density Tropical Climate
title	Contribution of conservation genetics in assessing neotropical freshwater fish biodiversity
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