Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?

Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?

To resolve the population genetic structure and phylogeography of the West Indian manatee (Trichechus manatus), mitochondrial (mt) DNA control region sequences were compared among eight locations across the western Atlantic region. Fifteen haplotypes were identified among 86 individuals from Florida, Puerto Rico, the Dominican Republic, Mexico, Colombia, Venezuela, Guyana and Brazil. Despite the manatee's ability to move thousands of kilometres along continental margins, strong population separations between most locations were demonstrated with significant haplotype frequency shifts. These findings are consistent with tagging studies which indicate that stretches of open water and unsuitable coastal habitats constitute substantial barriers to gene flow and colonization. Low levels of genetic diversity within Florida and Brazilian samples might be explained by recent colonization into high latitudes or bottleneck effects. Three distinctive mtDNA lineages were observed in an intraspecific phylogeny of T. manatus, corresponding approximately to: (i) Florida and the West Indies; (ii) the Gulf of Mexico to the Caribbean rivers of South America; and (iii) the northeast Atlantic coast of South America. These lineages, which are not concordant with previous subspecies designations, are separated by sequence divergence estimates of d = 0.04-0.07, approximately the same level of divergence observed between T. manatus and the Amazonian manatee (T. inunguis, n = 16). Three individuals from Guyana, identified as T. manatus, had mtDNA haplotypes which are affiliated with the endemic Amazon form T. inunguis. The three primary T. manatus lineages and the T. inunguis lineage may represent relatively deep phylogeographic partitions which have been bridged recently due to changes in habitat availability (after the Wisconsin glacial period, 10 000 BP), natural colonization, and human-mediated transplantation.

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Main Authors: García Rodríguez, Angela I. autora, Bowen, Brian W. autor, Domning, D. autor/a, Mignucci Giannoni, Antonio A. autor, Marmontel, Miriam autora, Montoya Ospina, Ruby A. autora, Morales Vela, José Benjamín Doctor autor 2028, Rudin, Markus autor, Bonde, Robert K. autor, McGuire, Peter M. autor 15129
Format: Texto biblioteca
Language:eng
Subjects:Trichechus manatus, Manatíes, Mamíferos marinos, ADN mitocondrial, Genética de población, Filogeografía, Artfrosur,
Online Access:http://onlinelibrary.wiley.com/doi/10.1046/j.1365-294x.1998.00430.x/full
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id KOHA-OAI-ECOSUR:44432
record_format koha
institution ECOSUR
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-ecosur
tag biblioteca
region America del Norte
libraryname Sistema de Información Bibliotecario de ECOSUR (SIBE)
language eng
topic Trichechus manatus
Manatíes
Mamíferos marinos
ADN mitocondrial
Genética de población
Filogeografía
Artfrosur
Trichechus manatus
Manatíes
Mamíferos marinos
ADN mitocondrial
Genética de población
Filogeografía
Artfrosur
spellingShingle Trichechus manatus
Manatíes
Mamíferos marinos
ADN mitocondrial
Genética de población
Filogeografía
Artfrosur
Trichechus manatus
Manatíes
Mamíferos marinos
ADN mitocondrial
Genética de población
Filogeografía
Artfrosur
García Rodríguez, Angela I. autora
Bowen, Brian W. autor
Domning, D. autor/a
Mignucci Giannoni, Antonio A. autor
Marmontel, Miriam autora
Montoya Ospina, Ruby A. autora
Morales Vela, José Benjamín Doctor autor 2028
Rudin, Markus autor
Bonde, Robert K. autor
McGuire, Peter M. autor 15129
Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?
description To resolve the population genetic structure and phylogeography of the West Indian manatee (Trichechus manatus), mitochondrial (mt) DNA control region sequences were compared among eight locations across the western Atlantic region. Fifteen haplotypes were identified among 86 individuals from Florida, Puerto Rico, the Dominican Republic, Mexico, Colombia, Venezuela, Guyana and Brazil. Despite the manatee's ability to move thousands of kilometres along continental margins, strong population separations between most locations were demonstrated with significant haplotype frequency shifts. These findings are consistent with tagging studies which indicate that stretches of open water and unsuitable coastal habitats constitute substantial barriers to gene flow and colonization. Low levels of genetic diversity within Florida and Brazilian samples might be explained by recent colonization into high latitudes or bottleneck effects. Three distinctive mtDNA lineages were observed in an intraspecific phylogeny of T. manatus, corresponding approximately to: (i) Florida and the West Indies; (ii) the Gulf of Mexico to the Caribbean rivers of South America; and (iii) the northeast Atlantic coast of South America. These lineages, which are not concordant with previous subspecies designations, are separated by sequence divergence estimates of d = 0.04-0.07, approximately the same level of divergence observed between T. manatus and the Amazonian manatee (T. inunguis, n = 16). Three individuals from Guyana, identified as T. manatus, had mtDNA haplotypes which are affiliated with the endemic Amazon form T. inunguis. The three primary T. manatus lineages and the T. inunguis lineage may represent relatively deep phylogeographic partitions which have been bridged recently due to changes in habitat availability (after the Wisconsin glacial period, 10 000 BP), natural colonization, and human-mediated transplantation.
format Texto
topic_facet Trichechus manatus
Manatíes
Mamíferos marinos
ADN mitocondrial
Genética de población
Filogeografía
Artfrosur
author García Rodríguez, Angela I. autora
Bowen, Brian W. autor
Domning, D. autor/a
Mignucci Giannoni, Antonio A. autor
Marmontel, Miriam autora
Montoya Ospina, Ruby A. autora
Morales Vela, José Benjamín Doctor autor 2028
Rudin, Markus autor
Bonde, Robert K. autor
McGuire, Peter M. autor 15129
author_facet García Rodríguez, Angela I. autora
Bowen, Brian W. autor
Domning, D. autor/a
Mignucci Giannoni, Antonio A. autor
Marmontel, Miriam autora
Montoya Ospina, Ruby A. autora
Morales Vela, José Benjamín Doctor autor 2028
Rudin, Markus autor
Bonde, Robert K. autor
McGuire, Peter M. autor 15129
author_sort García Rodríguez, Angela I. autora
title Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?
title_short Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?
title_full Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?
title_fullStr Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?
title_full_unstemmed Phylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa?
title_sort phylogeography of the west indian manatee (trichechus manatus) how many populations and how many taxa?
url http://onlinelibrary.wiley.com/doi/10.1046/j.1365-294x.1998.00430.x/full
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spelling KOHA-OAI-ECOSUR:444322024-03-12T13:00:25ZPhylogeography of the west indian manatee (Trichechus manatus) how many populations and how many taxa? García Rodríguez, Angela I. autora Bowen, Brian W. autor Domning, D. autor/a Mignucci Giannoni, Antonio A. autor Marmontel, Miriam autora Montoya Ospina, Ruby A. autora Morales Vela, José Benjamín Doctor autor 2028 Rudin, Markus autor Bonde, Robert K. autor McGuire, Peter M. autor 15129 textengTo resolve the population genetic structure and phylogeography of the West Indian manatee (Trichechus manatus), mitochondrial (mt) DNA control region sequences were compared among eight locations across the western Atlantic region. Fifteen haplotypes were identified among 86 individuals from Florida, Puerto Rico, the Dominican Republic, Mexico, Colombia, Venezuela, Guyana and Brazil. Despite the manatee's ability to move thousands of kilometres along continental margins, strong population separations between most locations were demonstrated with significant haplotype frequency shifts. These findings are consistent with tagging studies which indicate that stretches of open water and unsuitable coastal habitats constitute substantial barriers to gene flow and colonization. Low levels of genetic diversity within Florida and Brazilian samples might be explained by recent colonization into high latitudes or bottleneck effects. Three distinctive mtDNA lineages were observed in an intraspecific phylogeny of T. manatus, corresponding approximately to: (i) Florida and the West Indies; (ii) the Gulf of Mexico to the Caribbean rivers of South America; and (iii) the northeast Atlantic coast of South America. These lineages, which are not concordant with previous subspecies designations, are separated by sequence divergence estimates of d = 0.04-0.07, approximately the same level of divergence observed between T. manatus and the Amazonian manatee (T. inunguis, n = 16). Three individuals from Guyana, identified as T. manatus, had mtDNA haplotypes which are affiliated with the endemic Amazon form T. inunguis. The three primary T. manatus lineages and the T. inunguis lineage may represent relatively deep phylogeographic partitions which have been bridged recently due to changes in habitat availability (after the Wisconsin glacial period, 10 000 BP), natural colonization, and human-mediated transplantation.To resolve the population genetic structure and phylogeography of the West Indian manatee (Trichechus manatus), mitochondrial (mt) DNA control region sequences were compared among eight locations across the western Atlantic region. Fifteen haplotypes were identified among 86 individuals from Florida, Puerto Rico, the Dominican Republic, Mexico, Colombia, Venezuela, Guyana and Brazil. Despite the manatee's ability to move thousands of kilometres along continental margins, strong population separations between most locations were demonstrated with significant haplotype frequency shifts. These findings are consistent with tagging studies which indicate that stretches of open water and unsuitable coastal habitats constitute substantial barriers to gene flow and colonization. Low levels of genetic diversity within Florida and Brazilian samples might be explained by recent colonization into high latitudes or bottleneck effects. Three distinctive mtDNA lineages were observed in an intraspecific phylogeny of T. manatus, corresponding approximately to: (i) Florida and the West Indies; (ii) the Gulf of Mexico to the Caribbean rivers of South America; and (iii) the northeast Atlantic coast of South America. These lineages, which are not concordant with previous subspecies designations, are separated by sequence divergence estimates of d = 0.04-0.07, approximately the same level of divergence observed between T. manatus and the Amazonian manatee (T. inunguis, n = 16). Three individuals from Guyana, identified as T. manatus, had mtDNA haplotypes which are affiliated with the endemic Amazon form T. inunguis. The three primary T. manatus lineages and the T. inunguis lineage may represent relatively deep phylogeographic partitions which have been bridged recently due to changes in habitat availability (after the Wisconsin glacial period, 10 000 BP), natural colonization, and human-mediated transplantation.Trichechus manatusManatíesMamíferos marinosADN mitocondrialGenética de poblaciónFilogeografíaArtfrosurMolecular Ecologyhttp://onlinelibrary.wiley.com/doi/10.1046/j.1365-294x.1998.00430.x/fullAcceso en línea sin restricciones

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