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Idade e crescimento da tartaruga cabeçuda (Caretta caretta) no litoral sul do Rio Grande do SulPetitet, Roberta January 2010 (has links)
Dissertação(mestrado) - Universidade Federal do Rio Grande, Programa de Pós–Graduação em Oceanografia Biológica, Instituto de Oceanografia, 2010. / Submitted by Cristiane Gomides (cristiane_gomides@hotmail.com) on 2013-12-16T11:32:16Z
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Previous issue date: 2010 / A espécie de tartaruga marinha Caretta caretta (tartaruga-cabeçuda) utiliza a costa
brasileira para desenvolvimento e reprodução, suas praias de desova estão situadas nos estados da Bahia e Espírito Santo. A maioria dos estudos sobre a tartaruga-cabeçuda no Brasil lidam com fêmeas adultas e os estágios de juvenis e sub-adultos são pouco conhecidos. O presente estudo faz uma estimativa da idade de tartarugas-cabeçudas através da técnica de esqueletocronologia por análises do úmero provenientes de ambos os estágios, nerítico e oceânico. E ajusta um modelo de crescimento para a população dessa espécie do Atlântico Sul Ocidental. Baseado na
validação de que uma linha de crescimento corresponde a um ano, os números de linhas presentes no úmero correspondem a idade do animal. Para tartarugas de tamanho maior, foi aplicado o fator de correção para o cálculo de linhas perdidas devido à reabsorção óssea e perda das primeiras linhas de crescimento. Esse fator de correção foi baseado em dois modelos, o primeiro denominado “simples” que não incorpora a variação na deposição de linhas de crescimento no animal e entre animais, já o segundo modelo, denominado “hierárquico” faz essa incorporação. O modelo hierárquico obteve melhor ajuste aos dados de tamanho (CCC – comprimento curvilíneo da carapaça) e diâmetro do úmero, provavelmente devido a experiências
desses répteis em ambientes com condições estocásticas, portanto alguns indivíduos podem crescer mais do que outros. A estimativa da duração do estágio oceânico foi de 8 a 19 anos (com média de 11,5) e a idade de maturação de 25,7 a 39,2 anos (com média de 31,2 anos). O modelo de crescimento de Schnute se ajustou bem aos dados de tamanho (CCC) e idade, devido sua versatilidade em forma e não requerimento de dados de tamanho de animais neonatais e de adultos próximos ao tamanho assintótico. Entretanto, a “curva” de Schnute foi bastante similar a uma reta, portanto foi ajustada uma regressão linear que obteve um melhor ajuste aos dados, que por sua vez, é composto por uma “janela de idade” do ciclo de vida das tartarugas marinhas. A
“Hipótese de proporcionalidade corporal” foi aplicada para o cálculo das taxas de crescimento. As taxas de crescimento das tartarugas-cabeçudas neríticas foram similares as reportadas para tartarugas-cabeçudas do Atlântico Norte, porém menores do que as tartarugas oceânicas do Atlântico Sul. Sugerindo que as condições ambientais locais podem influenciar na taxa de crescimento da tartaruga marinha, como também, a energia gasta durante migrações, alocação de energia e origem genética. / The juvenile and sub-adult stages of loggerhead sea turtles (Caretta caretta) are poorly
studied in Brazil. We present age estimates and a growth model for loggerhead sea turtles in the South Atlantic Ocean obtained through skeletochronological analysis of humeri obtained from both neritic and oceanic stage individuals. Since it was validated that each increment growth corresponds to one year for loggerhead sea turtle, the number of lines of arrested growth (LAGs) was taken as the age estimated. For larger turtles a correction factor was applied to solve for lost LAGs. This correction factor was based on two models, the first denoted “naïve” makes no distinction between inter- and intra-individual variability and the second denoted “hierarchical”, takes this distinction into account. The hierarchical model had the best fit to the data set, probably because these reptiles experience stochastic conditions through their life cycle, so that some individuals may grow more than others. The estimated ages indicate that the duration of the pelagic stage is 8 to19 years (average 11.5 years) and the age at maturation ranges from 25.7 to 39.2 years (average 31.2 years). Schnute‟s growth model was fit to age-at-length data, due to its versatility in shape and no requirement of size data for hatchlings up to individuals at old ages with near asymptotic size. However, since the shape of Schnute`s curve was almost linear for the age-window comprising our data, a linear regression ultimately yielded a slightly better fit. The “Body Proportional Hypothesis” was incorporated in the calculation of growth rates. Growth rates from neritic stage South Atlantic loggerheads were similar to those reported for neritic loggerhead sea turtles from the North Atlantic, but lower than for oceanic loggerheads from South Atlantic. This finding suggests that local environmental conditions influence turtle‟s growth rates, as well as, the energy expenditure during migrations, energy allocation and genetic origin.
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Determination of Sea Turtle Nesting Behavior using Thermograph Data Analysis in Broward County, FloridaCook, Brettany L. 12 May 2009 (has links)
The current accepted methods for assessing the effect of water temperatures on sea turtle nesting, utilizes sea surface temperatures (SST). Since Loggerhead sea turtles spend the majority of their time near the ocean floor, often below a thermocline, bottom temperature analysis should be a better estimate of actual temperature experienced by the sea turtles, therefore, correlating better to nesting events. Thermograph data sensors were placed along three reef tracts that run parallel to Broward County, Florida’s coastline, to collect bottom seawater temperatures from the year 2004 through 2006. Detrended average daily bottom temperatures were compared to detrended Loggerhead sea turtle nest counts collected by daily beach monitoring throughout the county. The comparisons confirmed that during the years 2004 and 2006, up to 29.6% of the fluctuations in sea turtle nesting can be associated to the short-term changes in bottom water temperature. r2-values of 0.2963 and 0.2948 were determined along the Broward County coastline, with p-values<0.001. No significant correlations were found in the year 2005 when bottom water temperature variations were smaller than in the other years. This evaluation shows that Loggerhead sea turtle nesting counts can be highly correlated to bottom seawater temperatures, in Broward County, Florida. Better understanding of a location’s temperature fluctuations can lead to a better management and conservation plan for the associated species and habitat.
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Impact of Hurricanes on Caretta caretta Nesting Success, Hatching Success and Washout Rate in Broward CountyGilbert, Collette F. 01 August 2013 (has links)
Hurricanes can cause considerable damage along the coastlines of the United States. There are very little data relating hurricanes and sea turtle nesting. Hurricane season (June- November) and sea turtle nesting season, for the study period, (March- September) overlap in Broward County, Florida. This paper examines the relationship between the Hurricane Impact Index (HII) and hatching success of loggerhead sea turtles (Caretta caretta) and HII and washout rate. For ten of the eleven storms studied, there was no significant relationship between HII and hatching success (percent). Tropical Storm Ophelia (2005) showed a significantly higher (p=0.0206) hatching success after the storm’s passing than before the storm’s passing. There was a significant relationship between washout rate and HII (p=0.026).
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Padrões espaço-temporais da captura acidental das tartarugas marinhas Dermochelys coriacea e Caretta caretta pela pesca com espinhel pelágico na região Sudeste/Sul do Brasil / Patterns spatiotemporal of bycatch of sea turtles Caretta caretta and Dermochelys coriacea by pelagic longline fisheries in southeastern/southern BrazilMarcon, Melissa Cunha Cajueiro 12 November 2013 (has links)
A interação das tartarugas marinhas da espécie Caretta caretta e Dermochelys coriacea com o espinhel pelágico é um dos fatores que mais causa a mortalidade destes animais no oceano. Estudos com o intuito de quantificar essa interação, bem como os fatores que influenciam a mesma, são crescentes, para os quais é necessário conhecer a distribuição dos animais, e correlacioná-la com variáveis ambientais e operacionais da pesca. O presente estudo visa avaliar e quantificar os padrões espaço-temporais das capturas acidentais das tartarugas marinhas C. caretta e D. coriacea na região Sudeste/Sul do Brasil, com base em dados coletados pelo Projeto TAMAR ICMBio, entre 2003 e 2010, a partir de um programa de observadores à bordo da frota comercial com espinhel pelágico, assim como correlacioná-los com variáveis ambientais, biológicas e operacionais. Para tal, foram utilizados métodos estatísticos, como os Modelos Aditivos Generalizados para Posição, Escala e Forma (GAMLSS). Foram verificadas variações interanuais e sazonais, com destaque para maiores capturas por unidade de esforço (CPUE) no outono. A temperatura superficial do mar foi a variável abiótica de maior correlação com a CPUE de C. caretta, sendo tipo de isca, a variável operacional mais significativa. Para D. coriacea, profundidade e longitude foram os fatores que melhor explicam a CPUE. Padrões de distribuição ontogenética e áreas prioritárias de conservação para essas populações são discutidas, assim como os efeitos potenciais do aquecimento do oceano. O presente estudo deve contribuir para a definição de políticas de conservação marinha e no contexto da abordagem ecossistêmica para a pesca / The interaction between the sea turtles Caretta caretta and Dermochelys coriacea with pelagic longline is one of the factors that cause mortality of these animals in the ocean. Studies in order to quantify this interaction, as well as the factors that influence it, are increasing, focusing mostly on the turtles distribution, and how it correlates with environmental and fishing operational variables. Present study aims to evaluate and quantify the spatio-temporal patterns of the sea turtles C. caretta and D. coriacea bycatch off Southeast/South Brazil, based on data collected by Project TAMAR - ICMBio between 2003 and 2010, from an observer program on-board the commercial pelagic longline fleet, as well as to correlate them with environmental, biological and operational variables,. Statistical methods such as Generalized Additive Models for Location, Scale and Shape (GAMLSS) were applied. Interannual and seasonal variations were observed, with a higher catch per unit effort (CPUE) during fall. The sea surface temperature was the abiotic variable that most correlated with CPUE of C. caretta, being the type of bait the most significant operational variable. For D. coriacea, depth and longitude were the factors that better explained the CPUE. Ontogenetic distribution patterns and priority areas for the species conservation are discussed, as well as the potential effects of ocean warming. This study should contribute to the definition of conservation policies as well as to the ecosystem approach to fisheries context
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Ecologia e Conservação de Tartarugas Marinhas Através da Análise de Encalhes no Litoral ParaibanoPoli, Camila 28 July 2011 (has links)
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Previous issue date: 2011-07-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Five sea turtle species use the Brazilian coast for reproduction and feeding: loggerhead turtle (Caretta caretta), green turtle (Chelonia mydas), leatherback turtle (Dermochelys coriacea), olive turtle (Lepidochelys olivacea) and hawksbill turtle (Eretmochelys imbricata). These species are included in the threatened categories, as much globally, according to the Red List of Threatened Species, issued by the International Union for Conservation of Nature (IUCN), as regionally, according to the Livro Vermelho da Fauna Brasileira Ameaçada de Extinção, published by the Ministério do Meio Ambiente. Sea turtles naturally face a wide variety of stressors, both natural and anthropogenic, like diseases, predation by other animals, incidental capture in fishing artifacts, marine pollution and the hunt. Systematic data collection from stranded sea turtles can provide useful biological information, such as seasonal and spatial patterns in their occurrence, and mortality, age structure, sex ratio, diet, interannual variations associated with climatic or anthropogenic events, as well as possible mortality causes. Thus, this study aimed to examine sea turtle strandings on the coast of Paraíba State, from August 2009 to July 2010, emphasizing the observation of the occurrence of ingestion of anthropogenic debris. In this period, 124 strandings were recorded. The species observed were C. mydas (n = 106), E. imbricata (n = 15), L. olivacea (n = 2) and C. caretta (n = 1). Of the total strandings that could be measured (n = 122), only twelve individuals (9.7%) could be considered adults. In 20 individuals, synthetic anthropogenic debris were found inside the gastrointestinal tract and of these, in 13 individuals it was concluded that the death cause was the ingestion of these residues. In 43 individuals, other traces of human interactions were observed, such as injuries caused by entanglement in fishing lines or nets, collisions with vessels, direct contact with oil spills, and lesions caused by knives and harpoons. In 28.5% of the stranded turtles, the presence of external tumors was noted, suggestive of fibropapillomatosis. Moreover, in 9.7%, shark bite marks were observed. A significant difference was found in the occurrence of strandings between males and females, being that the females were more frequent. Also, a significant difference was found in the occurrence of strandings between the different seasons, being that in the spring/summer (dry season), the strandings were more frequent. The most worrying result of this study was the observation of human interactions in half of the strandings analyzed. Stranding monitoring is necessary along the whole coast of Brazil and, indeed, along those of the entire world, because it has a fundamental role in studies of the ecology, biology and conservation of these species, generating benefits for local action, directed to the major problems observed. / Cinco espécies de tartarugas marinhas utilizam a costa brasileira para reprodução e alimentação: a tartaruga cabeçuda (Caretta caretta), a tartaruga verde (Chelonia mydas), a tartaruga de couro (Dermochelys coriacea), a tartaruga oliva (Lepidochelys olivacea) e a tartaruga de pente (Eretmochelys imbricata). Estas espécies estão incluídas em categorias de ameaça, tanto mundialmente, de acordo com a lista vermelha de animais ameaçados de extinção da União Internacional para a Conservação da Natureza (IUCN), como regionalmente, de acordo com o Livro Vermelho da Fauna Brasileira Ameaçada de Extinção, do Ministério do Meio Ambiente. As tartarugas marinhas, naturalmente, encontram uma ampla variedade de estressores, tanto naturais quanto antrópicos, como doenças, predação por outros animais, captura incidental em artefatos de pesca, poluição marinha e a caça. A coleta sistemática de dados de tartarugas marinhas encalhadas pode fornecer informação biológica útil, como por exemplo, padrões sazonais e espaciais na ocorrência e mortalidade, estrutura etária, proporção sexual, dieta, variações interanuais associadas a eventos climáticos ou antropogênicos bem como as possíveis causas de mortalidade. O objetivo deste trabalho foi analisar os encalhes de tartarugas marinhas na costa do estado da Paraíba, no período de agosto de 2009 a julho de 2010, enfatizando a observação da ocorrência de ingestão de material antropogênico. Neste período foram registrados 124 encalhes. As espécies observadas foram C. mydas (n = 106), E. imbricata (n = 15), L. olivacea (n = 2) e C. caretta (n = 1). Do total de encalhes que puderam ser mensurados (n = 122), apenas doze indivíduos (9,7%) puderam ser considerados adultos. Em 20 indivíduos, foram encontrados resíduos antropogênicos sintéticos dentro do trato gastrointestinal e destes, em 13 indivíduos foi possível concluir que a causa da morte foi a ingestão destes resíduos. Em 43 indivíduos foram observados outros vestígios de interações humanas, como ferimentos provocados por emaranhamentos em linhas ou redes, ferimentos provocados por colisões com embarcações, contato direto com manchas de óleo e ferimentos provocados por facas e arpões. Em 28,5% das tartarugas encalhadas notou-se a presença de tumores externos sugestivos de fibropapilomatose. Em 9,7% foi possível observar marcas de mordidas de tubarões. Observou-se uma diferença significativa na ocorrência de encalhes entre machos e fêmeas, sendo que as fêmeas foram mais frequentes. Também verificou-se uma diferença significativa na ocorrência de encalhes entre as diferentes estações, sendo que no período de primavera/verão (estação seca) os encalhes foram mais frequentes. O resultado mais preocupante deste estudo foi a observação de evidências de interação com atividades antrópicas em metade dos encalhes analisados. O monitoramento de encalhes se faz necessário em toda a costa do Brasil e do mundo, pois este tem papel fundamental em estudos de ecologia, biologia e conservação destas espécies, gerando assim subsídios para ações locais e direcionadas aos principais problemas observados.
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Padrões espaço-temporais da captura acidental das tartarugas marinhas Dermochelys coriacea e Caretta caretta pela pesca com espinhel pelágico na região Sudeste/Sul do Brasil / Patterns spatiotemporal of bycatch of sea turtles Caretta caretta and Dermochelys coriacea by pelagic longline fisheries in southeastern/southern BrazilMelissa Cunha Cajueiro Marcon 12 November 2013 (has links)
A interação das tartarugas marinhas da espécie Caretta caretta e Dermochelys coriacea com o espinhel pelágico é um dos fatores que mais causa a mortalidade destes animais no oceano. Estudos com o intuito de quantificar essa interação, bem como os fatores que influenciam a mesma, são crescentes, para os quais é necessário conhecer a distribuição dos animais, e correlacioná-la com variáveis ambientais e operacionais da pesca. O presente estudo visa avaliar e quantificar os padrões espaço-temporais das capturas acidentais das tartarugas marinhas C. caretta e D. coriacea na região Sudeste/Sul do Brasil, com base em dados coletados pelo Projeto TAMAR ICMBio, entre 2003 e 2010, a partir de um programa de observadores à bordo da frota comercial com espinhel pelágico, assim como correlacioná-los com variáveis ambientais, biológicas e operacionais. Para tal, foram utilizados métodos estatísticos, como os Modelos Aditivos Generalizados para Posição, Escala e Forma (GAMLSS). Foram verificadas variações interanuais e sazonais, com destaque para maiores capturas por unidade de esforço (CPUE) no outono. A temperatura superficial do mar foi a variável abiótica de maior correlação com a CPUE de C. caretta, sendo tipo de isca, a variável operacional mais significativa. Para D. coriacea, profundidade e longitude foram os fatores que melhor explicam a CPUE. Padrões de distribuição ontogenética e áreas prioritárias de conservação para essas populações são discutidas, assim como os efeitos potenciais do aquecimento do oceano. O presente estudo deve contribuir para a definição de políticas de conservação marinha e no contexto da abordagem ecossistêmica para a pesca / The interaction between the sea turtles Caretta caretta and Dermochelys coriacea with pelagic longline is one of the factors that cause mortality of these animals in the ocean. Studies in order to quantify this interaction, as well as the factors that influence it, are increasing, focusing mostly on the turtles distribution, and how it correlates with environmental and fishing operational variables. Present study aims to evaluate and quantify the spatio-temporal patterns of the sea turtles C. caretta and D. coriacea bycatch off Southeast/South Brazil, based on data collected by Project TAMAR - ICMBio between 2003 and 2010, from an observer program on-board the commercial pelagic longline fleet, as well as to correlate them with environmental, biological and operational variables,. Statistical methods such as Generalized Additive Models for Location, Scale and Shape (GAMLSS) were applied. Interannual and seasonal variations were observed, with a higher catch per unit effort (CPUE) during fall. The sea surface temperature was the abiotic variable that most correlated with CPUE of C. caretta, being the type of bait the most significant operational variable. For D. coriacea, depth and longitude were the factors that better explained the CPUE. Ontogenetic distribution patterns and priority areas for the species conservation are discussed, as well as the potential effects of ocean warming. This study should contribute to the definition of conservation policies as well as to the ecosystem approach to fisheries context
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An assessment of disease on the health of green (Chelonia mydas) and loggerhead (Caretta caretta) turtles in southern Queensland AustraliaMark-Shannon Flint Unknown Date (has links)
Marine turtle numbers are in a state of flux around the world. Six of the seven remaining species of these long-lived animals are threatened; with the seventh being listed data deficient. Reasons for these fluctuations are speculated to be due to human related impacts (direct) and increase in disease occurrence caused by changes in the natural environment (indirect). Most direct impacts have been identified and strategies implemented to mitigate their effects with varying degrees of success; however the indirect effects on marine animals remain an understudied area. This thesis outlined the development of ante- and post-mortem diagnostic techniques to identify prevalent diseases affecting two marine turtle species in southern Queensland over a four year (2006-2009) period. This data was used to determine the impact of disease on turtle survivorship. Two-hundred and ninety green turtles (Chelonia mydas) from Moreton and Shoalwater Bays were captured, clinically assessed and blood sampled. Clinically healthy animals (n = 211) were used to derive biochemical and haematological reference intervals using two methods. Comparisons with clinically unhealthy animals (n = 25) indicated all unhealthy animals had at least some plasma biochemical and haematological values outside the derived intervals (albumin, 48% of unhealthy animals; alkaline phosphatase (ALP), 35%; aspartate transaminase (AST), 13%; creatinine, 30%; globulin, 3%; glucose, 34%; lactic dehydrogenase (LDH), 26%; phosphorus, 22%; sodium, 13%; thrombocytes, 57%; and monocytes, 5%). Amongst small immature animals, those with Chelonibia testudinaria plastron barnacle counts of at least 20 were approximately three times more likely to be unhealthy than turtles with no barnacles. In addition, small immature and mature turtles were more likely to be unhealthy than large immature turtles (Chapter 2). By the same method, 101 loggerhead turtles (Caretta caretta) in Moreton Bay were assessed and bled. Clinically healthy animals (n = 63) were used to derive intervals. Comparisons with clinically unhealthy animals (n = 23) indicated 82% and 45% had at least one biochemical and hematological result, respectively, outside of at least one of the calculated intervals. Neither sex nor maturity (mature versus large immature) influenced the risk of being clinically unhealthy (Chapter 3). A standardised approach to post-mortem examination of marine turtles for veterinary clinicians with a concurrent descriptive review of gross and microscopic pathological lesions commonly seen during examination in Australia (Chapter 4) was used to accurately determine diseases and causes of death in 100 green turtles submitted from various regions of southern Queensland for examination. Spirorchiid parasitism was found to be the most frequently occurring cause of mortality (41.8%), followed by gastrointestinal impaction (11.8%), microbiological infectious diseases (5.2%) and trauma (5.2%). Spirorchiid parasitism with associated inflammation (75%) was the most frequently occurring disease followed by gastrointestinal impaction (5.1%). Season and turtle age had limited influences on disease. Severity of spirorchiidiasis in the brain was independent of severity in other organs (Chapter 5). From these examinations, the most prevalent disease syndrome (spirorchiidiasis) and a previously unreported finding in Australian waters (corneal fibropapillomatosis) were selected to be examined in greater detail. Spirorchiid parasites from four organs in five green turtles were identified by established morphological and molecular techniques. Morphological study of adults identified Carettacola sp. in the serosal wall of the gastrointestinal tract, Hapalotrema mehrai in the heart and Learedius learedi in the spleen. Worms from the brain probably belonged to the genus Neospirorchis. DNA sequences from a portion of the 28S ribosomal RNA gene were obtained; but only matches for Hapalotrema mehrai and Learedius learedi were made. The prevalence and severity of this disease warrants further investigation into development of molecular techniques for use as a prognostic tool for turtles entering rehabilitation (Chapter 6). Chelonid corneal fibropapillomatosis, a previously unreported disease manifestation in Australia, was identified in 0.5% of 787 examined green turtles in 2008 (Chapter 7). This novel syndrome was shown to reduce visibility, potentially negatively affecting turtle survivorship and should be monitored for further spread. Findings from this thesis and the published literature were used to derive a mathematical model to determine the effects of identified diseases on Moreton Bay green turtle survivorship. This model demonstrated diseases at current prevalence will not negatively affect survivorship but an adverse environmental disruption or an increase in current disease frequency may threaten these animals (Chapter 8). Information presented in this thesis was used to test the general hypothesis ‘Differences in disease and health between stranded and functional populations of marine turtles will indicate major and currently unmeasured causes of population decline.’ This hypothesis was partially upheld. Differences in disease and health status between stranded and functional populations were demonstrated, but more work is required to comprehensively examine these statuses. Diagnostics and continued environmental assessment should become the focus of future investigations. These findings should be incorporated in future management strategies.
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Aspectos reprodutivos em tartarugas marinhas da bacia potiguar RN/CEFabr?cio, Mar?lia Anielle da Silva 19 December 2016 (has links)
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Previous issue date: 2016-12-19 / Existem no mundo apenas sete esp?cies de tartarugas marinhas. Dentre essas, h? registros de ocorr?ncia de cinco esp?cies no litoral do Brasil: Dermochelys coriacea, Chelonia mydas, Caretta caretta, Eretmochelys imbricata e Lepidochelys olivacea. De acordo com a Lista Vermelha da Uni?o Internacional para a Conserva??o da Natureza, todas as esp?cies de tartarugas marinhas existentes no Brasil se encontram amea?adas de extin??o. A maioria dos trabalhos relacionados a propor??o sexual desses r?pteis indicam um desequil?brio populacional, havendo um n?mero excessivo de f?meas. Assim, pesquisas sobre a biologia reprodutiva desses animais s?o extremamente necess?rias e importantes para conserva??o de gera??es futuras dessas esp?cies. Este trabalho tem como objetivo estudar diferentes aspectos morfohistol?gicos das g?nadas de machos e f?meas de tartarugas marinhas na Bacia Potiguar. Foram avaliados animais vivos e mortos, provenientes de encalhes entre as praias de Icapu?/CE e Cai?ara do Norte/RN, totalizando aproximadamente 300 km. Os animais encalhados mortos ou que vieram a ?bito na Base de Reabilita??o do Projeto Cet?ceos da Costa Branca-UERN foram necropsiados por uma equipe veterin?ria. As g?nadas foram coletadas e fixadas em formol a 10%, e posteriormente submetidas a prepara??o histol?gica, atrav?s das t?cnicas de Hematoxilina-Eosina, sendo analisadas em microsc?pio ?ptico. No per?odo de janeiro de 2011 a dezembro de 2015 foram registrados 3.960 encalhes de tartarugas marinhas na ?rea estudada. A amostra apresentou propor??o sexual de 3:1, com predom?nio de f?meas. Oitenta e cinco por cento dos animais registrados foram classificados como pertencentes a fase de desenvolvimento "juvenil". Foram analisadas microscopicamente 86 amostras de tecido gonadal, sendo 53 f?meas e 25 machos da esp?cie Chelonia mydas, 3 f?meas e 3 machos de Eretmochelys imbricata e 2 f?meas de Caretta caretta. Foi poss?vel estabelecer tr?s est?gios de matura??o gonadal: pr? pubescente, pubescente e maduro. O predom?nio das g?nadas analisadas foi de indiv?duos pr? pubescentes, com f?meas apresentando ov?citos homog?neos e machos com t?bulos semin?feros de pequeno di?metro com aus?ncia de espermatozoides. Os esp?cimes pr? pubescentes f?meas apresentaram comprimento curvil?neo da carapa?a (CCC) m?dio de 37,07 cm e os machos 38,68 cm; Pubescentes f?meas 77,04 cm e machos 89,92 cm, F?meas maduras com 101,35 cm e um indiv?duo macho maduro com 105 cm. Pesquisas sobre aspectos histol?gicos relacionados ao desenvolvimento ovariano e testicular de tartarugas marinhas s?o escassas, mas, os resultados obtidos est?o em concord?ncia com o que j? foi descrito. Considera-se a necessidade de continuidade de trabalhos como esse, associando os dados morfol?gicos e biom?tricos ?s an?lises histol?gicas para o melhor entendimento sobre a matura??o sexual das tartarugas marinhas e implementa??o de propostas de conserva??o para essas esp?cies. / Among the seven species of sea turtles, five occurs on the Brazilian coast: Dermochelys coriacea, Chelonia mydas, Caretta caretta, Eretmochelys imbricata e Lepidochelys olivacea. According to the Red List of the IUCN, all species of sea turtles in Brazil are endangered. The majority of works related that the sexual proportion of these animals indicate a population imbalance, having a number excessive of females. Thus, studies of reproductive biology of sea turtles are extremely necessary and important for the conservation of these species for future generations. This work aims to study different morphohistological aspects of male and female's gonads of sea turtle in Potiguar Basin. For this, were evaluated dead and living animals, from strandings between the beaches of Icapu?/CE and Cai?ara do Norte/RN, totaling approximately 300 km. The dead animals were necropsied. During the procedure, the gonads were collected and fixed in formalin 10%, then submitted to histological process, through the techniques of hematoxylin-eosin, according Tolosa (2005), being analyzed in an optical microscope. Between January 2011 and December 2015 were recorded 3.960 stranding of sea turtles in the study area. The sample showed sex ratio of 3:1, with a predominance of females. . Eighty-five percent of the animals were classified juvenile. 86 samples of gonadal tissue wereanalized microscopically, being 58 females and 28 males, of Chelonia mydas, Eretmochelys imbricata e Caretta caretta. It was possible to establish three stages of maturation: pre-pubertal, pubertal and mature. The predominance was of pre-pubertal individuals, females presenting homogeneous oocytes and males with seminiferous tubules with a small diameter with absence of sperm. The pre-pubertal females specimens exhibit an average of 37,07 cm (CCC) and the males 38,68 cm (CCC); Pubertal females with an average of 77,04 cm and males 89,92 cm; mature females with 101,9 cm (CCC) and a single mature male with 105 cm. Researches on histological aspects related to ovarian and testicular development of sea turtles are scarce, but, the obtained results are in agreement with what has already been described. Researches like this, associating morphological and biometric data to histological analyzes, are necessary for the best knowledge about sexual maturity of these animals and implementation of conservation proposals for these species.
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The Effect of Air Temperature on the Incubation Period and Hatching Success of In Situ Loggerhead Sea Turtle (Caretta caretta) Clutches in Broward County, FloridaKawana, Lucy Teal 31 July 2013 (has links)
The survival rates of pre-emergent sea turtle hatchlings are critically dependent upon temperature. This study aimed to determine if changes in air temperature can explain some of the variability in hatching success observed over a 12 year period for loggerhead sea turtle (Caretta caretta) nests in Broward County. Air temperature data for the hatching seasons of 1999 to 2010 were obtained from the NOAA National Climatic Data Center’s Fort Lauderdale beach station. The loggerhead sea turtle hatching data collected by the Broward County Sea Turtle Conservation Program from the same time period was examined to assess the potential effects of air temperature on the hatching success and the incubation duration. Mean yearly incubation times were analyzed for trends and compared to mean nesting season temperatures. The relationships between the incubation durations and mean seasonal and intra-seasonal air temperature fluctuations as well as the relationship between hatching success and air temperature was tested for significance. The hatching success was also compared to the incubation times in order to establish if shorter incubation durations, were related to lower hatching success rates.
There have been large fluctuations in the average daily hatching success rates ranging from 10 to 100% over the twelve years examined in this study in Broward County. Significant decreases in incubation durations were apparent during times of increasing average air temperatures. In five of the twelve seasons there was also a significant relationship between the hatching success rates and the average air temperature, in which lower hatching success rates were evident during times of higher average air temperatures. There was a significant correlation between the incubation durations and the hatching success rates in six of the seasons as well, suggesting that lower hatching success rates are related to shorter incubation times. The pattern in average yearly hatching success rates were significantly related to the average monthly air temperatures in July suggesting that lower hatching success rates during the month of July were a result of higher temperatures during this time of the hatching season. A better understanding of the effects that air temperature has on loggerhead sea turtle clutches in Broward County can provide future insights for the fluctuating survival rates of sea turtle clutches and if the changes are natural or the result of conservation efforts.
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Effects of Localized NAO, ONI (ENSO) and AMO Events on Reproductive Patterns in Loggerhead (Caretta caretta) Sea Turtles in Broward County, FL, USAHammill, Allison L. 31 July 2013 (has links)
A variety of anthropomorphic and environmental stresses are threatening the existence of all seven species of sea turtles. There is growing evidence that alterations in surface waters and sediment temperatures are negatively impacting reproductive success of loggerhead sea turtles (Caretta caretta). Fluctuations in water temperature associated with localized climate oscillations heavily alter the food web dynamics of the ocean. Feeding conditions are expected to be a critical factor in determining body mass and productivity for breeding seasons. An increase in regional temperatures could lead to prolonged reduction in food sources, as well as reduced nesting and recruitment. Loggerhead sea turtle nesting data from 1995-2011 werre compared with the average yearly North Atlantic Oscillation (NAO) and Atlantic Multidecadal Oscillation (AMO) which are important climatic events impacting the SST in the Atlantic Ocean. Because El Niño Southern Oscillation (ENSO) is a global event, it was proposed that turtles in the Atlantic may follow a similar trend. ENSO was quantified using Oceanic Nino Index (ONI). Analysis of loggerhead sea turtle nest frequencies from the years 1995-2011 in comparison to seasonal climate changes showed a significant inverse relationship between the detrended loggerhead nests and average yearly NAO when lagged two years, suggesting loggerheads may spend years prior breeding obtaining optimum body mass to increase successful reproduction. The detrended nesting data showed a tendency toward higher occurrence of nests during La Niña years while nest frequencies decreased during El Niño year; when the yearly detrended loggerhead nesting data was compared with the average yearly ONI; showing a significant inverse relationship without a lag. This may also suggest a relationship between changes of productivity of the ocean influenced by smaller scale climate changes and loggerhead nest frequencies.
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