Filogeografia global da tartaruga oliva (Lepidochelys olivacea)
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2011 |
| Tipo de documento: | Tese |
| Idioma: | por |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da PUC_RS |
| Texto Completo: | http://tede2.pucrs.br/tede2/handle/tede/242 |
Resumo: | The first chapter of this thesis is the first study about the olive ridley turtle s (Lepidochelys olivacea) genetic diversity and population structure in Brazil. The olive ridley is the most abundant species of marine turtle and is listed as vulnerable by the IUCN. Olive ridleys had a strong history of harvest in the Atlantic Ocean, with some populations being severely depleted; in Brazil the egg exploitation was intense until before 1982. However, a single study with a very low sample size so far investigated the species´ mtDNA diversity in the region. Herein we characterize the genetic diversity and population structure of the olive ridley nesting populations in the Brazilian coast based on 92 samples sequenced for the mtDNA control region and 67 samples genotyped for fifteen microsatellite loci. Although three mtDNA haplotypes were found, two previously unknown but very rare, the Brazilian nesting population presented one of the lowest mtDNA diversity known for the species. Contrary, our newly described microsatellite data showed moderate to high genetic diversity for olive ridleys from Brazilian nesting sites, similar to the few other nesting populations studied so far, suggesting that the high level of egg harvest in Brazil did not result in a recent genetic bottleneck. mtDNA data indicated a population expansion following a population decline in the past while microsatellite data suggested a scenario of demographic stability, supporting the scenario of colonization of Atlantic Ocean via a founder effect. Since results from both markers present no evidence of significant genetic differences between the studied olive ridleys nesting areas in the Brazilian coast, conservation strategies should consider the Brazilian olive ridleys as a single interbreeding population. The second chapter is a global phylogeographic study of the olive ridley. It was proposed that the ridley turtles diverged after the closure of the Isthmus of Panama during the Pliocene, and then L. olivacea has spread from the Pacific Ocean into the Indo-Pacific, Indian and only recently to the Atlantic Ocean. Genetic analyses have been consistent with this scenario although some authors have proposed the Indo-Pacific region as the center of origin for the ridley turtles instead. To address this and other questions on the population structure patterns and demographic changes through time, we used mtDNA sequence and the STRs for 300 samples of ridley turtles across their range. The olive ridley nesting sites are well structured for the mtDNA, while for STRs the population divergences are lower for regional rookeries but highly significant among oceans, suggesting male-mediated gene flow within oceans. Beyond a kemp s clade, we corroborated the existence of four geographic mtDNA clades for the olive ridleys: the K clade only found in Indian Ocean, and the East Pacific, Indo- Pacific and Atlantic clades. The K clade originated around 1.6 Mya, the East Pacific clade about 0.61 Mya, and the split between the Indo-Pacific and Atlantic lineages around 0.36 Mya. These results are mostly consistent with the recent colonization of East Pacific and the Atlantic and suggest a model of recurrent extinction/colonization for most ridley nesting sites that may be explained by the climatic changes, especially during the Pleistocene. Diversification times within all five clades are very similar, ranging between 221 Kya and 342 Kya, suggesting the most recent demographic events for most oceanic regions may have been concurrent. Significant statistics for the STR data and similarly shaped star trees in each of the four major olive ridley clades suggested a population expansion, a scenario partially corroborated by the Bayesian Skyline Plot analysis which is indicating a population expansion for L. olivacea after the last glacial maximum. |
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Bonatto, Sandro LuisCPF:41358619034http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4783801Y0CPF:00442420935http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4773157J3Hahn, Anelise Torres2015-04-14T13:09:36Z2012-08-242011-12-20HAHN, Anelise Torres. Filogeografia global da tartaruga oliva (Lepidochelys olivacea). 2011. 107 f. Tese (Doutorado em Zoologia) - Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre, 2011.http://tede2.pucrs.br/tede2/handle/tede/242The first chapter of this thesis is the first study about the olive ridley turtle s (Lepidochelys olivacea) genetic diversity and population structure in Brazil. The olive ridley is the most abundant species of marine turtle and is listed as vulnerable by the IUCN. Olive ridleys had a strong history of harvest in the Atlantic Ocean, with some populations being severely depleted; in Brazil the egg exploitation was intense until before 1982. However, a single study with a very low sample size so far investigated the species´ mtDNA diversity in the region. Herein we characterize the genetic diversity and population structure of the olive ridley nesting populations in the Brazilian coast based on 92 samples sequenced for the mtDNA control region and 67 samples genotyped for fifteen microsatellite loci. Although three mtDNA haplotypes were found, two previously unknown but very rare, the Brazilian nesting population presented one of the lowest mtDNA diversity known for the species. Contrary, our newly described microsatellite data showed moderate to high genetic diversity for olive ridleys from Brazilian nesting sites, similar to the few other nesting populations studied so far, suggesting that the high level of egg harvest in Brazil did not result in a recent genetic bottleneck. mtDNA data indicated a population expansion following a population decline in the past while microsatellite data suggested a scenario of demographic stability, supporting the scenario of colonization of Atlantic Ocean via a founder effect. Since results from both markers present no evidence of significant genetic differences between the studied olive ridleys nesting areas in the Brazilian coast, conservation strategies should consider the Brazilian olive ridleys as a single interbreeding population. The second chapter is a global phylogeographic study of the olive ridley. It was proposed that the ridley turtles diverged after the closure of the Isthmus of Panama during the Pliocene, and then L. olivacea has spread from the Pacific Ocean into the Indo-Pacific, Indian and only recently to the Atlantic Ocean. Genetic analyses have been consistent with this scenario although some authors have proposed the Indo-Pacific region as the center of origin for the ridley turtles instead. To address this and other questions on the population structure patterns and demographic changes through time, we used mtDNA sequence and the STRs for 300 samples of ridley turtles across their range. The olive ridley nesting sites are well structured for the mtDNA, while for STRs the population divergences are lower for regional rookeries but highly significant among oceans, suggesting male-mediated gene flow within oceans. Beyond a kemp s clade, we corroborated the existence of four geographic mtDNA clades for the olive ridleys: the K clade only found in Indian Ocean, and the East Pacific, Indo- Pacific and Atlantic clades. The K clade originated around 1.6 Mya, the East Pacific clade about 0.61 Mya, and the split between the Indo-Pacific and Atlantic lineages around 0.36 Mya. These results are mostly consistent with the recent colonization of East Pacific and the Atlantic and suggest a model of recurrent extinction/colonization for most ridley nesting sites that may be explained by the climatic changes, especially during the Pleistocene. Diversification times within all five clades are very similar, ranging between 221 Kya and 342 Kya, suggesting the most recent demographic events for most oceanic regions may have been concurrent. Significant statistics for the STR data and similarly shaped star trees in each of the four major olive ridley clades suggested a population expansion, a scenario partially corroborated by the Bayesian Skyline Plot analysis which is indicating a population expansion for L. olivacea after the last glacial maximum.O capítulo inicial desta tese é o primeiro estudo sobre a diversidade genética e estrutura populacional de Lepidochelys olivacea (tartaruga oliva) no Brasil. O litoral de Sergipe e do norte da Bahia correspondem as principais áreas de desova da tartaruga oliva no Brasil. Desde 1992, o número de desovas de tartaruga oliva vem crescendo nestas áreas, indicando um aumento populacional; porém, a espécie continua ameaçada, principalmente devido às atividades de pesca e ao desenvolvimento costeiro desordenado. Neste estudo foram utilizadas sequências do DNA mitocondrial (mtDNA), além de 15 loci de microssatélites (STRs) para avaliar a diversidade genética e a estrutura populacional da tartaruga oliva em sítios de desova no Brasil. Além disso, utilizaram-se sequências previamente publicadas do mtDNA do Suriname para comparações populacionais. Identificou-se baixa diversidade genética no mtDNA da tartaruga oliva, com registro de apenas três haplótipos (F, F1 e F2), sendo o mais comum deles (F) encontrado em quase 95% dos indivíduos amostrados. Por outro lado, os loci de STRs mostraram maior diversidade genética. Os resultados também evidenciaram a falta de diferenciação genética entre as praias de desova na costa do Brasil, tanto para o mtDNA quanto para os STRs, sugerindo assim, a existência de uma única população de desova da tartaruga oliva no Brasil. As análises de diferenciação populacional entre Brasil e Suriname indicaram baixa distinção genética entre estas duas áreas, porém características biológicas sugerem que as duas populações atualmente estejam isoladas. O segundo capítulo estuda a filogeografia global de L. olivacea, utilizando um segmento do mtDNA e 15 loci de STRs em 330 e 291 indivíduos amostrados, respectivamente. Foram encontradas quatro clados mitocondriais correspondentes aos oceanos Índico, Indo-Pacífico, Pacífico leste e Atlântico. As idades de separação foram 1,6, 0,6 e 0, 32 milhão de anos atrás para o clado exclusivo do oceano Índico, do Pacífico leste e do Indo-Pacífico e Atlântico, respectivamente, ou ainda, mais recente que isto. Nossos resultados corroboram um modelo de extinção/colonização recorrentes para a maioria dos sítios de desova da espécie. A estruturação genética entre os oceanos foi altamente significativa, bem como entre a maior parte dos diferentes sítios de desova intra-oceânicos. Da mesma forma, a análise dos STRs demonstrou que a diferenciação entre os oceanos é alta, no entanto, dentro dos oceanos esta diferenciação é consideravelmente menor e não significativa entre a maior parte das áreas de desova, indicando os machos como importantes veículos para o fluxo gênico. Nossos resultados indicam que as linhagens atuais se diversificaram há aproximadamente 200 mil anos atrás com uma expansão populacional para a espécie há aproximadamente 15 mil anos, sendo que, este cenário é parcialmente corroborado quando analisamos as linhagens separadamente. Os resultados com STRs indicaram crescimento populacional quando as análises foram realizadas agrupando as populações dentro dos oceanos. Os resultados obtidos neste estudo indicam que as populações de desova de L. olivacea dos oceanos Índico, Indo-Pacífico, Pacífico leste e Atlântico são distintas e devem ser manejadas separadamente.Made available in DSpace on 2015-04-14T13:09:36Z (GMT). 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Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| title |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| spellingShingle |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) Hahn, Anelise Torres BIOLOGIA ZOOLOGIA RÉPTEIS TARTARUGAS MARINHAS GENÉTICA ANIMAL CNPQ::CIENCIAS BIOLOGICAS::ZOOLOGIA |
| title_short |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| title_full |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| title_fullStr |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| title_full_unstemmed |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| title_sort |
Filogeografia global da tartaruga oliva (Lepidochelys olivacea) |
| author |
Hahn, Anelise Torres |
| author_facet |
Hahn, Anelise Torres |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Bonatto, Sandro Luis |
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CPF:41358619034 |
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http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4783801Y0 |
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CPF:00442420935 |
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http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4773157J3 |
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Hahn, Anelise Torres |
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Bonatto, Sandro Luis |
| dc.subject.por.fl_str_mv |
BIOLOGIA ZOOLOGIA RÉPTEIS TARTARUGAS MARINHAS GENÉTICA ANIMAL |
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BIOLOGIA ZOOLOGIA RÉPTEIS TARTARUGAS MARINHAS GENÉTICA ANIMAL CNPQ::CIENCIAS BIOLOGICAS::ZOOLOGIA |
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CNPQ::CIENCIAS BIOLOGICAS::ZOOLOGIA |
| description |
The first chapter of this thesis is the first study about the olive ridley turtle s (Lepidochelys olivacea) genetic diversity and population structure in Brazil. The olive ridley is the most abundant species of marine turtle and is listed as vulnerable by the IUCN. Olive ridleys had a strong history of harvest in the Atlantic Ocean, with some populations being severely depleted; in Brazil the egg exploitation was intense until before 1982. However, a single study with a very low sample size so far investigated the species´ mtDNA diversity in the region. Herein we characterize the genetic diversity and population structure of the olive ridley nesting populations in the Brazilian coast based on 92 samples sequenced for the mtDNA control region and 67 samples genotyped for fifteen microsatellite loci. Although three mtDNA haplotypes were found, two previously unknown but very rare, the Brazilian nesting population presented one of the lowest mtDNA diversity known for the species. Contrary, our newly described microsatellite data showed moderate to high genetic diversity for olive ridleys from Brazilian nesting sites, similar to the few other nesting populations studied so far, suggesting that the high level of egg harvest in Brazil did not result in a recent genetic bottleneck. mtDNA data indicated a population expansion following a population decline in the past while microsatellite data suggested a scenario of demographic stability, supporting the scenario of colonization of Atlantic Ocean via a founder effect. Since results from both markers present no evidence of significant genetic differences between the studied olive ridleys nesting areas in the Brazilian coast, conservation strategies should consider the Brazilian olive ridleys as a single interbreeding population. The second chapter is a global phylogeographic study of the olive ridley. It was proposed that the ridley turtles diverged after the closure of the Isthmus of Panama during the Pliocene, and then L. olivacea has spread from the Pacific Ocean into the Indo-Pacific, Indian and only recently to the Atlantic Ocean. Genetic analyses have been consistent with this scenario although some authors have proposed the Indo-Pacific region as the center of origin for the ridley turtles instead. To address this and other questions on the population structure patterns and demographic changes through time, we used mtDNA sequence and the STRs for 300 samples of ridley turtles across their range. The olive ridley nesting sites are well structured for the mtDNA, while for STRs the population divergences are lower for regional rookeries but highly significant among oceans, suggesting male-mediated gene flow within oceans. Beyond a kemp s clade, we corroborated the existence of four geographic mtDNA clades for the olive ridleys: the K clade only found in Indian Ocean, and the East Pacific, Indo- Pacific and Atlantic clades. The K clade originated around 1.6 Mya, the East Pacific clade about 0.61 Mya, and the split between the Indo-Pacific and Atlantic lineages around 0.36 Mya. These results are mostly consistent with the recent colonization of East Pacific and the Atlantic and suggest a model of recurrent extinction/colonization for most ridley nesting sites that may be explained by the climatic changes, especially during the Pleistocene. Diversification times within all five clades are very similar, ranging between 221 Kya and 342 Kya, suggesting the most recent demographic events for most oceanic regions may have been concurrent. Significant statistics for the STR data and similarly shaped star trees in each of the four major olive ridley clades suggested a population expansion, a scenario partially corroborated by the Bayesian Skyline Plot analysis which is indicating a population expansion for L. olivacea after the last glacial maximum. |
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