Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species

Marine habitats are in decline worldwide, precipitating a strong interest in marine conservation. The use of biogeographic data to designate ecoregions has had significant impacts on terrestrial conservation efforts. However, classification of marine environments into ecoregions has only become avai...

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Main Authors:	De Boer, Timery S., Naguit, Ma Rio Abdon, Erdmann, Mark V., Lagman, Ma Carmen Ablan, Ambariyanto, A., Carpenter, Kent E., Toha, Abdul Hamid A., Barber, Paul H.
Format:	text
Published:	Animo Repository 2014
Subjects:	Coral Triangle Marine habitats Marine habitat conservation Biology
Online Access:	https://animorepository.dlsu.edu.ph/faculty_research/3317
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Institution:	De La Salle University

id	oai:animorepository.dlsu.edu.ph:faculty_research-4294
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spelling	oai:animorepository.dlsu.edu.ph:faculty_research-42942021-04-20T08:20:23Z Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species De Boer, Timery S. Naguit, Ma Rio Abdon Erdmann, Mark V. Lagman, Ma Carmen Ablan Ambariyanto, A. Carpenter, Kent E. Toha, Abdul Hamid A. Barber, Paul H. Marine habitats are in decline worldwide, precipitating a strong interest in marine conservation. The use of biogeographic data to designate ecoregions has had significant impacts on terrestrial conservation efforts. However, classification of marine environments into ecoregions has only become available in the last several years, based on biogeographic data supplemented by geomorphology, ocean currents, and water temperatures. Here we use a comparative phylogeographic approach to test for concordant phylogeographic patterns in three closely related species of Tridacna giant clams across the Coral Triangle, the most biodiverse marine region in the world and one of the most threatened. Data from a 450 base pair fragment of mitochondrial cytochrome-c oxidase subunit one DNA from 1739 giant clams across Indonesia and the Philippines show strong concordance between phylogeographic patterns in three species of giant clams as well as evidence for potentially undescribed species within the genus. Phylogeographic patterns correspond broadly to marine ecoregions proposed by Spalding et al. (2007), indicating that processes contributing to biogeographic boundaries likely also limit genetic connectivity across this region. These data can assist with designing more effective networks of marine protected areas by ensuring that unique biogeographic and phylogeographic regions are represented in regional conservation planning.© 2014 Rosenstiel School of Marine and Atmospheric Science of the University of Miami. 2014-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/3317 info:doi/10.5343/bms.2013.1003 Faculty Research Work Animo Repository Coral Triangle Marine habitats Marine habitat conservation Biology
institution	De La Salle University
building	De La Salle University Library
continent	Asia
country	Philippines Philippines
content_provider	De La Salle University Library
collection	DLSU Institutional Repository
topic	Coral Triangle Marine habitats Marine habitat conservation Biology
spellingShingle	Coral Triangle Marine habitats Marine habitat conservation Biology De Boer, Timery S. Naguit, Ma Rio Abdon Erdmann, Mark V. Lagman, Ma Carmen Ablan Ambariyanto, A. Carpenter, Kent E. Toha, Abdul Hamid A. Barber, Paul H. Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species
description	Marine habitats are in decline worldwide, precipitating a strong interest in marine conservation. The use of biogeographic data to designate ecoregions has had significant impacts on terrestrial conservation efforts. However, classification of marine environments into ecoregions has only become available in the last several years, based on biogeographic data supplemented by geomorphology, ocean currents, and water temperatures. Here we use a comparative phylogeographic approach to test for concordant phylogeographic patterns in three closely related species of Tridacna giant clams across the Coral Triangle, the most biodiverse marine region in the world and one of the most threatened. Data from a 450 base pair fragment of mitochondrial cytochrome-c oxidase subunit one DNA from 1739 giant clams across Indonesia and the Philippines show strong concordance between phylogeographic patterns in three species of giant clams as well as evidence for potentially undescribed species within the genus. Phylogeographic patterns correspond broadly to marine ecoregions proposed by Spalding et al. (2007), indicating that processes contributing to biogeographic boundaries likely also limit genetic connectivity across this region. These data can assist with designing more effective networks of marine protected areas by ensuring that unique biogeographic and phylogeographic regions are represented in regional conservation planning.© 2014 Rosenstiel School of Marine and Atmospheric Science of the University of Miami.
format	text
author	De Boer, Timery S. Naguit, Ma Rio Abdon Erdmann, Mark V. Lagman, Ma Carmen Ablan Ambariyanto, A. Carpenter, Kent E. Toha, Abdul Hamid A. Barber, Paul H.
author_facet	De Boer, Timery S. Naguit, Ma Rio Abdon Erdmann, Mark V. Lagman, Ma Carmen Ablan Ambariyanto, A. Carpenter, Kent E. Toha, Abdul Hamid A. Barber, Paul H.
author_sort	De Boer, Timery S.
title	Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species
title_short	Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species
title_full	Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species
title_fullStr	Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species
title_full_unstemmed	Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species
title_sort	concordance between phylogeographic and biogeographic boundaries in the coral triangle: conservation implications based on comparative analyses of multiple giant clam species
publisher	Animo Repository
publishDate	2014
url	https://animorepository.dlsu.edu.ph/faculty_research/3317
_version_	1767195873549221888

Concordance between phylogeographic and biogeographic boundaries in the Coral Triangle: Conservation implications based on comparative analyses of multiple giant clam species

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