TY - JOUR
T1 - Testing dispersal hypotheses in foraging green sea turtles (Chelonia mydas) of Brazil
AU - Naro-Maciel, Eugenia
AU - Becker, José Henrique
AU - Lima, Eduardo H.S.M.
AU - Marcovaldi, Maria Ângela
AU - DeSalle, Rob
N1 - Funding Information:
This work was supported by the National Science Foundation under grant number 0407722, as well as by the Lerner-Gray Fund for Marine Research. Angela Formia, Karen Bjorndal, and Alan Bolten provided indispensable mitochondrial rookery data that were unpublished at the time. We thank Stephen Karl for valuable assistance. Michele Masuda was generously helpful with the BAYES program. Thanks to the many colleagues who provided insightful comments and guidance on this or companion articles and presentations, especially Angela Formia, Ximena Velez-Zuazo, and Kartik Shanker. We would also like to thank Brian Bowen and 2 anonymous reviewers. We extend our gratitude to Peter J. Ersts for assistance with the maps. Luciano Soares, Gustave Lopez, and other members of the Projeto TAMAR staff are gratefully acknowledged. We express our sincere thanks to Eleanor Sterling, George Amato, James Gibbs, Howard Rosenbaum, and Juan Carlos Morales, as well as the Department of Ecology, Evolution and Environmental Biology at Columbia University.
PY - 2007/1
Y1 - 2007/1
N2 - Testing theories of dispersal is challenging in highly migratory species. In sea turtles, population size, geographic distance, natal homing, and ocean currents are hypothesized to affect dispersal. Little is known, however, about these mechanisms in sea turtles foraging along the South American coast. Green sea turtles feeding at Ubatuba (UB, n = 114) and Almofala (AF, n = 117), Brazil, were sequenced at the mitochondrial DNA (mtDNA) control region (486 bp) and genotyped at 7 microsatellite loci to test dispersal hypotheses. Fifteen mtDNA haplotypes were revealed, including a previously undescribed sequence, and the average observed heterozygosity (Ho) was 76.4%. Overall short-term temporal differences were not detected, and differentiation was less pronounced in microsatellite than in mtDNA analyses. Mitochondrial results reveal significant differentiation between the Brazilian feeding grounds and most other Atlantic groups, whereas microsatellites uncover similarities to some of the geographically closest populations. Ubatuba and Almofala are mixed stocks, drawn primarily from Ascension, with lesser contributions from Surinam/Aves and Trindade. Costa Rica is also a significant source of individuals feeding at AF. The results are consistent with a model of juvenile natal homing impacted by other factors. Effective protection of turtles foraging along the extensive Brazilian coast may enhance breeding populations thousands of kilometers away.
AB - Testing theories of dispersal is challenging in highly migratory species. In sea turtles, population size, geographic distance, natal homing, and ocean currents are hypothesized to affect dispersal. Little is known, however, about these mechanisms in sea turtles foraging along the South American coast. Green sea turtles feeding at Ubatuba (UB, n = 114) and Almofala (AF, n = 117), Brazil, were sequenced at the mitochondrial DNA (mtDNA) control region (486 bp) and genotyped at 7 microsatellite loci to test dispersal hypotheses. Fifteen mtDNA haplotypes were revealed, including a previously undescribed sequence, and the average observed heterozygosity (Ho) was 76.4%. Overall short-term temporal differences were not detected, and differentiation was less pronounced in microsatellite than in mtDNA analyses. Mitochondrial results reveal significant differentiation between the Brazilian feeding grounds and most other Atlantic groups, whereas microsatellites uncover similarities to some of the geographically closest populations. Ubatuba and Almofala are mixed stocks, drawn primarily from Ascension, with lesser contributions from Surinam/Aves and Trindade. Costa Rica is also a significant source of individuals feeding at AF. The results are consistent with a model of juvenile natal homing impacted by other factors. Effective protection of turtles foraging along the extensive Brazilian coast may enhance breeding populations thousands of kilometers away.
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U2 - 10.1093/jhered/esl050
DO - 10.1093/jhered/esl050
M3 - Article
C2 - 17158465
AN - SCOPUS:34548380787
SN - 0022-1503
VL - 98
SP - 29
EP - 39
JO - Journal of Heredity
JF - Journal of Heredity
IS - 1
ER -