Global ETD Search

1	Activity patterns and habitat associations of Kemp's ridley turtles, Lepidochelys kempi, in the coastal waters of the Cedar Keys, Florida Schmid, Jeffrey R. January 2000 (has links) (PDF) Thesis (Ph. D.)--University of Florida, 2000. / Title from PDF title page (viewed on July 4, 2005). Vita. Includes bibliographical references (p. 144-163). Lepidochelys kempii Lepidochelys kempii
2	Evolutionary and conservation implications of sex determination and hatchling depredation in Kemp's ridley sea turtles / Eich, Anne Marie LeBlanc. January 2009 (has links) (PDF) Thesis (Ph. D.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed Feb. 1, 2010). Additional advisors: Ken Marion, David C. Rostal, Robert W. Thacker, Jeanette Wyneken. Electronic data (1 file : 10.93 mb). Includes bibliographical references (p. 13-18).
3	Historical diet analysis of loggerhead (Caretta caretta) and Kemp's ridley (Lepidochelys kempi) sea turtles in Virginia / Seney, Erin E., January 2003 (has links) (PDF) Thesis (M. Sc.)--College of William and Mary. / Vita. Includes bibliographical references (leaves 115-122).
4	Genetic analysis of the Kemp's ridley sea turtle (Lepidochelys kempii) and estimates of effective population size Stephens, Sarah Holland 30 September 2004 (has links) The critically endangered Kemp's ridley sea turtle experienced a dramatic decline in population size (demographic bottleneck) between 1947 and 1987 from 160,000 mature individuals to less than 5000. Demographic bottlenecks can cause genetic bottlenecks where significant losses of genetic diversity occur through genetic drift. The loss of genetic diversity can lower fitness through the random loss of adaptive alleles and through an increase in the expression of deleterious alleles. Molecular genetic studies on endangered species require collecting tissue using non-invasive or minimally invasive techniques. Such sampling techniques are well developed for birds and mammals, but not for sea turtles. The first objective was to explore the relative success of several minimally invasive tissue-sampling methods as source of DNA from Kemp's ridley sea turtles. Tissue sampling techniques included; blood, cheek swabs, cloacal swabs, carapace scrapings, and a minimally invasive tissue biopsy of the hind flipper. Single copy nuclear DNA loci were PCR amplified with turtle-specific primers. Blood tissue provided the best DNA extractions. Additionally, archival plasma samples are shown to be good sources of DNA. However, when dealing with hatchlings or very small individuals in field situations, the tissue biopsy of the hind flipper is the preferred method. This study's main focus was to evaluate whether the Kemp's ridley sea turtle sustained a measurable loss of genetic variation resulting from the demographic bottleneck. To achieve this goal, three alternative approaches were used to detect a reduction in Kemp's ridley's effective population size (Ne) from microsatellite data. These approaches were 1) Temporal change in allele frequencies, 2)An excess of heterozygotes in progeny, and 3)A mean ratio (M) of the number of alleles (k) to the range of allele size (r). DNA samples were obtained from Kemp's ridleys caught in the wild. PCR was used to amplify eight microsatellite loci and allele frequencies were determined. Data from only four microsatellites could be used. Although the reduced number of loci was a limiting factor in this study, the results of all three approaches suggest that Kemp's ridley sustained a measurable loss of genetic variation due to the demographic bottleneck. Microsatellite Kemp's ridley Lepidochelys kempii genetic effective population size
5	Ecologia e Conservação de Tartarugas Marinhas Através da Análise de Encalhes no Litoral Paraibano Poli, Camila 28 July 2011 (has links) Made available in DSpace on 2015-04-17T14:55:19Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 691952 bytes, checksum: aa37d23f6ffbb0e86e790fa6ad93ee28 (MD5) 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. Chelonia mydas Eretmochelys imbricata Lepidochelys olivacea Caretta caretta Impactos antrópicos Encalhes Detritos antropogênicos Chelonia mydas Eretmochelys imbricata Lepidochelys olivacea Caretta caretta Human impact Strandings Anthropogenic debris CIENCIAS BIOLOGICAS::ZOOLOGIA
6	FORAGING ECOLOGY OF NESTING GREEN, OLIVE RIDLEY, AND LEATHERBACK TURTLES FROM NORTHWEST COSTA RICA Alison Jenele Meeth (10716291) 28 April 2021 (has links) <div>Understanding what sea turtles are feeding on and where they are feeding is key to understand their overall biology and will aid in understanding what type of management actions are necessary in order to conserve and protect these endangered species. Here I set out to (1) examine the population-level isotopic profiles of three sea turtle species in the Eastern Tropical Pacific; (2) determine differences in their foraging strategies; (3) attempt to gain insights about their pre-nesting origins; and (4) determine whether body size would influence the isotopic values of an individual turtle.</div><div>Stable isotope analysis (δ<sup>13</sup>C and δ<sup>15</sup>N values) was conducted on tissue samples from 52 sea turtles nesting on Playa Cabuyal, Costa Rica; 28 Pacific green (<i>Chelonia mydas</i>), 20 olive ridley (<i>Lepidochelys olivacea</i>), and 4 leatherback (<i>Dermochelys coriacea</i>). Nine satellite transmitters were also deployed on a separate population of post-nesting Pacific green turtles from Playa Cabuyal.</div><div>Based on isotopic profiles, green turtles in the Eastern Tropical Pacific were found to be feeding at a higher trophic level when compared to green turtles in other regions and this was supported by their increased δ<sup>15</sup>N values (16 ± 0.8 ‰). Rather than shifting to herbivory as adults, green turtles foraging in the eastern Pacific are potentially remaining omnivorous. Tracking data further confirmed that green turtles are coastal migrators and are probably inhabiting areas with high δ<sup>15</sup>N values within this region. Olive ridley turtles are exhibiting similar behavior to olive ridley turtles elsewhere due to minimal variance in their isotopic profiles (δ<sup>13</sup>C = -15.1 ± 0.7 ‰, δ<sup>15</sup>N =14.2 ± 0.8 ‰) and their known nomadic behavior. Although a small sample size, leatherback turtles showed a shift in their foraging habitats suggesting they are also feeding inshore in addition to their pelagic behavior due to their increased δ<sup>13</sup>C values (-15.5 ± 0.4 ‰). Further, as body size increased in olive ridley’s, the δ<sup>15</sup>N values significantly decreased suggesting that larger turtles prefer deeper pelagic waters with less enriched N isotope concentrations. However, in order to rule out possible external factors influencing this relationship, knowing where the turtle is originating from is crucial. This project provides data for developing isoscapes in the Eastern Tropical Pacific to aid in understanding the spatial distribution of sea turtles and their foraging grounds and the impact that foraging area may have on overall biology of these species. This information can be used to prioritize high use foraging habitats and determine the most effective management practices for protecting these species and the prey and habitat on which they rely.</div> sea turtles Chelonia mydas Lepidochelys olivacea Dermochelys coriacea stable isotope analysis carbon nitrogen satellite telemetry Eastern Tropical Pacific
7	<b>Heavy Metal Concentrations in Sea Turtles and </b><b>Their Prey in the Northwest Atlantic </b> Yi Wynn Chan (18414897) 20 April 2024 (has links) <p dir="ltr">The Northwest Atlantic Ocean, which surrounds the US eastern coastline, is an area rich in marine life. The US eastern coastline is also highly urbanized, resulting in a lot of pollutants (like heavy metals) entering the marine environment. This is of concern for long-lived marine species like sea turtles. Since sea turtles are long-lived and highly migratory, their tissues can often incorporate these pollutants through environmental and dietary exposure. I collected tissue samples from 5 different sea turtle populations in the Northwest Atlantic and analyzed them for concentrations of silver (Ag), aluminum (Al), arsenic (As), cadmium (Cd), cobalt (Co), chromium (Cr), iron (Fe), manganese (Mn), nickel (Ni), lead (Pb), selenium (Se) and zinc (Zn) using an Inductively Coupled Plasma Mass Spectrometry (ICP-MS). The first chapter looks at skin (reflects exposure ~1 year ago) and scute (reflects exposure from 4-6 years ago) samples collected during necropsies of juvenile green (<i>Chelonia mydas</i>) (n=8), Kemp’s ridley (<i>Lepidochelys kempii</i>) (n=30) and loggerhead (<i>Caretta caretta</i>) (n=17) turtles that were found cold-stunned in Cape Cod Bay, Massachusetts. In scute samples, the heavy metal with the highest concentration for green turtles was iron, zinc for loggerhead turtles, and arsenic for Kemp’s ridley turtles. In skin samples, the heavy metal with the highest concentration for green turtles was iron, arsenic for loggerhead turtles, and aluminum for Kemp’s ridley turtles. Overall, I found scute samples to have higher heavy metal concentrations than skin samples. The second chapter looks at scute samples collected from loggerhead turtles of different life stages. These samples were collected during necropsies of cold-stunned loggerhead turtles from Cape Cod Bay, Massachusetts (CCB; n=17), as well as from live loggerhead turtles in the Mid-Atlantic Bight (MAB; n=37) and off the coast of North Carolina (NC; n=9). We also collected commonly known loggerhead turtle prey items including whelk (<i>Buccinum undatum</i>) (n=12), Atlantic scallop (<i>Placopecten magellanicus)</i> (n=10) and Jonah crab (<i>Cancer borealis</i>) (n=5) from the Mid-Atlantic Bight region to study the occurrence of biomagnification through trophic pathways. NC loggerhead turtles had higher heavy metal concentrations than other locations except for cadmium and zinc, where CCB loggerhead turtles were higher. I found that all heavy metals except silver, cadmium, and lead appear to be biomagnified (TTF>1) in loggerhead turtles. These two chapters provided baseline information on heavy metal concentrations in sea turtles in east coast US.</p> Toxicology (incl. clinical toxicology) Chelonia mydas (green turtle) Caretta caretta Lepidochelys kempii Atlantic Ocean coast
8	DEPREDATION OF OLIVE RIDLEY AND LOGGERHEAD TURTLE CLUTCHES ON BEACHES WITH AND WITHOUT PREDATOR MANAGEMNT Carlynn Nicole Cornhill (11002167) 23 July 2021 (has links) <p>Management of predation on sea turtle nesting beaches is vital to conservation efforts for the vulnerable loggerhead turtles (<i>Caretta caretta</i>) and olive ridley turtles (<i>Lepidochelys olivacea</i>). Sea turtles increasingly face threats from invasive and human-tolerant mammalian predators as human disturbances on nesting beaches rises. The intensity of mammalian predation has increased in Las Baulas National Park in Costa Rica which is an important nesting site for several species of threatened and endangered sea turtles. I analyzed loggerhead and olive ridley nest predation on four beaches in the United States and Costa Rica that were chosen for variations in degree of human disturbance and management strategies. My objectives were to 1) determine if egg predation rates differ at the four sites, 2) determine the most destructive predators at each location, and 3) suggest management options to alleviate mammalian threats to turtle clutches on Playa Grande and Playa Cabuyal in Costa Rica. My results show that the beaches without a nest protection or predator control program had very high rates of predation. Invasive mammalian predators and mammalian predators associated with human disturbance were the most destructive at the four sites. I recommend that regulations regarding dogs and the take of eggs from the beach are enforced at Playa Cabuyal and that physical nest protection is rapidly implemented at Playa Grande. I also recommend that the National Park consider managing raccoon predation by removing problem individuals, but caution that they do so in a way that maintains the animals’ role in the ecosystem.</p> Marine Biology Zoology Behavioural Ecology Population Ecology Animal Behaviour Vertebrate Biology Global Change Biology loggerhead turtle, Caretta caretta Predation risk human disturbance sea turtle clutches Playa Grande Costa Rica Playa Cabuyal Vero Beach Wassaw Island Sea Turtle endangered turtle Raccoon, Procyon lotor dog predation

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