Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali

Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali

Delineating Evolutionary Significant Units for conservation purposes is a crucial step in conservation. Across a distribution range, species frequently display population structure that drives the distribution of genetic diversity. These patterns of genetic structure and diversity result from intric...

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Main Authors: Aditya Hutama, Hadi Dahruddin, Frédéric Busson, Sopian Sauri, Philippe Keith, Renny Kurnia Hadiaty, Robert Hanner, Bambang Suryobroto, Nicolas Hubert
Format: Article
Language:English
Published: Elsevier 2017-10-01
Series:Global Ecology and Conservation
Subjects:
Phylogeography
Biodiversity hotspot
Pleistocene
Southeast Asia
Coalescent theory
Cryptic diversity
Online Access:http://www.sciencedirect.com/science/article/pii/S2351989417301518
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spelling doaj-c6ad68a49fca42cebbaa20533db3e1ea2020-11-24T22:57:45ZengElsevierGlobal Ecology and Conservation2351-98942017-10-0112C17018710.1016/j.gecco.2017.11.005Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and BaliAditya Hutama0Hadi Dahruddin1Frédéric Busson2Sopian Sauri3Philippe Keith4Renny Kurnia Hadiaty5Robert Hanner6Bambang Suryobroto7Nicolas Hubert8Bogor Agricultural University, Faculty of Mathematics and Natural Science, Animal Bioscience, Jl. Raya Darmaga, Bogor 16680, IndonesiaLIPI, Research Center for Biology, Zoology Division, MZB, Gedung Widyasatwaloka, Jl. Raya Jakarta Bogor Km. 46, Cibinong- Bogor 16911, IndonesiaMuséum national d’Histoire naturelle, UMR 7208 (MNHN-CNRS-UPMC-IRD-UCBN), CP 026, 43, rue Cuvier, F-75231 Paris Cedex 05, FranceLIPI, Research Center for Biology, Zoology Division, MZB, Gedung Widyasatwaloka, Jl. Raya Jakarta Bogor Km. 46, Cibinong- Bogor 16911, IndonesiaMuséum national d’Histoire naturelle, UMR 7208 (MNHN-CNRS-UPMC-IRD-UCBN), CP 026, 43, rue Cuvier, F-75231 Paris Cedex 05, FranceLIPI, Research Center for Biology, Zoology Division, MZB, Gedung Widyasatwaloka, Jl. Raya Jakarta Bogor Km. 46, Cibinong- Bogor 16911, IndonesiaBiodiversity Institute of Ontario and Department of Integrative Biology, University of Guelph, Guelph, ON, CanadaBogor Agricultural University, Faculty of Mathematics and Natural Science, Animal Bioscience, Jl. Raya Darmaga, Bogor 16680, IndonesiaInstitut de Recherche pour le Développement, UMR 226 ISEM (UM2-CNRS-IRD), Place Eugène Bataillon, CC 065, F-34095 Montpellier cedex 05, FranceDelineating Evolutionary Significant Units for conservation purposes is a crucial step in conservation. Across a distribution range, species frequently display population structure that drives the distribution of genetic diversity. These patterns of genetic structure and diversity result from intricate interactions between biogeographic history and demographic dynamics. Prior biogeographic knowledge, however, is scarcely available, a trend particularly pronounced in the tropics where the taxonomic impediment is hampering biogeographic studies and conservation efforts. DNA barcoding has been initially proposed to foster taxonomic studies through the development of an automated molecular system of species identification. While its utility for species identification is increasingly acknowledged, its usefulness for fast and large-scale delineation of ESU remains to be explored. If proved to be useful for that purpose, DNA barcoding may also open new perspectives in conservation by quickly providing preliminary information about population conservation status. The present study aims at assessing the utility of DNA barcoding for the delineation of ESUs among the most common freshwater fish species of Java and Bali through the comparison of population genetic structures and diversification patterns across multiple species. Substantial levels of cryptic diversity are discovered among the three widely distributed freshwater fish species analyzed with a total of 21 evolutionary independent mitochondrial lineages (BINs) observed in Barbodes binotatus, Channa gachua and Glyptothorax platypogon. The maximum genetic distance for each coalescent tree ranges from 6.78 to 7.76 K2P genetic distances for C. gachua and G. platypogon, respectively. Diversification and population genetic analyses support a scenario of allopatric differentiation. The analysis of the BINs spatial distribution indicates concordant distribution patterns among the three species that allow identifying 18 ESUs. Implications for the conservation genetics of these species are discussed at the light of the history of the region.http://www.sciencedirect.com/science/article/pii/S2351989417301518PhylogeographyBiodiversity hotspotPleistoceneSoutheast AsiaCoalescent theoryCryptic diversity
collection DOAJ
language English
format Article
sources DOAJ
author Aditya Hutama
Hadi Dahruddin
Frédéric Busson
Sopian Sauri
Philippe Keith
Renny Kurnia Hadiaty
Robert Hanner
Bambang Suryobroto
Nicolas Hubert
spellingShingle Aditya Hutama
Hadi Dahruddin
Frédéric Busson
Sopian Sauri
Philippe Keith
Renny Kurnia Hadiaty
Robert Hanner
Bambang Suryobroto
Nicolas Hubert
Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali
Global Ecology and Conservation
Phylogeography
Biodiversity hotspot
Pleistocene
Southeast Asia
Coalescent theory
Cryptic diversity
author_facet Aditya Hutama
Hadi Dahruddin
Frédéric Busson
Sopian Sauri
Philippe Keith
Renny Kurnia Hadiaty
Robert Hanner
Bambang Suryobroto
Nicolas Hubert
author_sort Aditya Hutama
title Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali
title_short Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali
title_full Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali
title_fullStr Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali
title_full_unstemmed Identifying spatially concordant evolutionary significant units across multiple species through DNA barcodes: Application to the conservation genetics of the freshwater fishes of Java and Bali
title_sort identifying spatially concordant evolutionary significant units across multiple species through dna barcodes: application to the conservation genetics of the freshwater fishes of java and bali
publisher Elsevier
series Global Ecology and Conservation
issn 2351-9894
publishDate 2017-10-01
description Delineating Evolutionary Significant Units for conservation purposes is a crucial step in conservation. Across a distribution range, species frequently display population structure that drives the distribution of genetic diversity. These patterns of genetic structure and diversity result from intricate interactions between biogeographic history and demographic dynamics. Prior biogeographic knowledge, however, is scarcely available, a trend particularly pronounced in the tropics where the taxonomic impediment is hampering biogeographic studies and conservation efforts. DNA barcoding has been initially proposed to foster taxonomic studies through the development of an automated molecular system of species identification. While its utility for species identification is increasingly acknowledged, its usefulness for fast and large-scale delineation of ESU remains to be explored. If proved to be useful for that purpose, DNA barcoding may also open new perspectives in conservation by quickly providing preliminary information about population conservation status. The present study aims at assessing the utility of DNA barcoding for the delineation of ESUs among the most common freshwater fish species of Java and Bali through the comparison of population genetic structures and diversification patterns across multiple species. Substantial levels of cryptic diversity are discovered among the three widely distributed freshwater fish species analyzed with a total of 21 evolutionary independent mitochondrial lineages (BINs) observed in Barbodes binotatus, Channa gachua and Glyptothorax platypogon. The maximum genetic distance for each coalescent tree ranges from 6.78 to 7.76 K2P genetic distances for C. gachua and G. platypogon, respectively. Diversification and population genetic analyses support a scenario of allopatric differentiation. The analysis of the BINs spatial distribution indicates concordant distribution patterns among the three species that allow identifying 18 ESUs. Implications for the conservation genetics of these species are discussed at the light of the history of the region.
topic Phylogeography
Biodiversity hotspot
Pleistocene
Southeast Asia
Coalescent theory
Cryptic diversity
url http://www.sciencedirect.com/science/article/pii/S2351989417301518
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