The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts

The copepod family Centropagidae is widely distributed and occurs in marine, estuarine, freshwater, and inland saline settings. Molecular phylogenies based upon the 16S and 28S genes demonstrate a complex biogeographic history, involving at least five independent invasions of continental waters from...

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Autor principal:	Menu Marque, Silvina A.
Publicado:	2010
Materias:	16S 28S Australia Biogeography Boeckella Calamoecia Copepod Freshwater Marine Parabroteas Phylogeny South America Vicariance RNA 16S RNA 28S animal article Bayes theorem classification copepod DNA sequence ecosystem genetic variability genetics geography molecular evolution phylogeny Animals Bayes Theorem Copepoda Ecosystem Evolution, Molecular Genetic Variation Geography RNA, Ribosomal, 16S RNA, Ribosomal, 28S Sequence Analysis, DNA Calanoida Centropagidae Crustacea
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10557903_v55_n2_p418_Adamowicz http://hdl.handle.net/20.500.12110/paper_10557903_v55_n2_p418_Adamowicz
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_10557903_v55_n2_p418_Adamowicz
record_format	dspace
spelling	paper:paper_10557903_v55_n2_p418_Adamowicz2023-06-08T16:03:15Z The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts Menu Marque, Silvina A. 16S 28S Australia Biogeography Boeckella Calamoecia Copepod Freshwater Marine Parabroteas Phylogeny South America Vicariance RNA 16S RNA 28S animal article Bayes theorem classification copepod DNA sequence ecosystem genetic variability genetics geography molecular evolution phylogeny Animals Bayes Theorem Copepoda Ecosystem Evolution, Molecular Genetic Variation Geography Phylogeny RNA, Ribosomal, 16S RNA, Ribosomal, 28S Sequence Analysis, DNA Boeckella Calamoecia Calanoida Centropagidae Copepoda Crustacea Parabroteas The copepod family Centropagidae is widely distributed and occurs in marine, estuarine, freshwater, and inland saline settings. Molecular phylogenies based upon the 16S and 28S genes demonstrate a complex biogeographic history, involving at least five independent invasions of continental waters from the sea. The first colonization was ancient, likely into part of Gondwanaland, and resulted in an inland radiation in southern genera via both vicariance and subsequent habitat shifting among different types of continental waters. Species occupying saline lakes are nested within freshwater clades, indicating invasion of these habitats via fresh waters rather than directly from the ocean or from epicontinental seas. In contrast with the great southern clade, all of the remaining continental invasions are northern, species poor, and quite recent, perhaps even Pleistocene. Long-lived evolutionary euryhalinity, a high propensity for inland invasion, continental vicariance, and in situ radiation within single continents have all played major roles in the diversification of the centropagids. © 2010 Elsevier Inc. All rights reserved. Fil:Menu-Marque, S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2010 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10557903_v55_n2_p418_Adamowicz http://hdl.handle.net/20.500.12110/paper_10557903_v55_n2_p418_Adamowicz
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	16S 28S Australia Biogeography Boeckella Calamoecia Copepod Freshwater Marine Parabroteas Phylogeny South America Vicariance RNA 16S RNA 28S animal article Bayes theorem classification copepod DNA sequence ecosystem genetic variability genetics geography molecular evolution phylogeny Animals Bayes Theorem Copepoda Ecosystem Evolution, Molecular Genetic Variation Geography Phylogeny RNA, Ribosomal, 16S RNA, Ribosomal, 28S Sequence Analysis, DNA Boeckella Calamoecia Calanoida Centropagidae Copepoda Crustacea Parabroteas
spellingShingle	16S 28S Australia Biogeography Boeckella Calamoecia Copepod Freshwater Marine Parabroteas Phylogeny South America Vicariance RNA 16S RNA 28S animal article Bayes theorem classification copepod DNA sequence ecosystem genetic variability genetics geography molecular evolution phylogeny Animals Bayes Theorem Copepoda Ecosystem Evolution, Molecular Genetic Variation Geography Phylogeny RNA, Ribosomal, 16S RNA, Ribosomal, 28S Sequence Analysis, DNA Boeckella Calamoecia Calanoida Centropagidae Copepoda Crustacea Parabroteas Menu Marque, Silvina A. The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts
topic_facet	16S 28S Australia Biogeography Boeckella Calamoecia Copepod Freshwater Marine Parabroteas Phylogeny South America Vicariance RNA 16S RNA 28S animal article Bayes theorem classification copepod DNA sequence ecosystem genetic variability genetics geography molecular evolution phylogeny Animals Bayes Theorem Copepoda Ecosystem Evolution, Molecular Genetic Variation Geography Phylogeny RNA, Ribosomal, 16S RNA, Ribosomal, 28S Sequence Analysis, DNA Boeckella Calamoecia Calanoida Centropagidae Copepoda Crustacea Parabroteas
description	The copepod family Centropagidae is widely distributed and occurs in marine, estuarine, freshwater, and inland saline settings. Molecular phylogenies based upon the 16S and 28S genes demonstrate a complex biogeographic history, involving at least five independent invasions of continental waters from the sea. The first colonization was ancient, likely into part of Gondwanaland, and resulted in an inland radiation in southern genera via both vicariance and subsequent habitat shifting among different types of continental waters. Species occupying saline lakes are nested within freshwater clades, indicating invasion of these habitats via fresh waters rather than directly from the ocean or from epicontinental seas. In contrast with the great southern clade, all of the remaining continental invasions are northern, species poor, and quite recent, perhaps even Pleistocene. Long-lived evolutionary euryhalinity, a high propensity for inland invasion, continental vicariance, and in situ radiation within single continents have all played major roles in the diversification of the centropagids. © 2010 Elsevier Inc. All rights reserved.
author	Menu Marque, Silvina A.
author_facet	Menu Marque, Silvina A.
author_sort	Menu Marque, Silvina A.
title	The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts
title_short	The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts
title_full	The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts
title_fullStr	The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts
title_full_unstemmed	The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts
title_sort	evolutionary diversification of the centropagidae (crustacea, calanoida): a history of habitat shifts
publishDate	2010
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10557903_v55_n2_p418_Adamowicz http://hdl.handle.net/20.500.12110/paper_10557903_v55_n2_p418_Adamowicz
work_keys_str_mv	AT menumarquesilvinaa theevolutionarydiversificationofthecentropagidaecrustaceacalanoidaahistoryofhabitatshifts AT menumarquesilvinaa evolutionarydiversificationofthecentropagidaecrustaceacalanoidaahistoryofhabitatshifts
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The evolutionary diversification of the Centropagidae (Crustacea, Calanoida): A history of habitat shifts

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