Your search keyword '"leatherback turtles"' showing total 16 results

1. The leatherback turtle (Dermochelys coriacea) and plastics in the Northwest Atlantic ocean: A hazard assessment

Author

Blais, Noémie and Wells, Peter G.

Published

2022

2. Total Arsenic Concentrations in Sea Turtle Tissues from the Mediterranean Coast of Spain.

Author

Martínez-López, E., Herrero, D., López-Berenguer, G., and Peñalver, J.

Subjects

LOGGERHEAD turtle, SEA turtles, LEATHERBACK turtle, ARSENIC, ARSENIC poisoning

Abstract

In this work we studied total arsenic concentrations in liver, muscle and kidney of 49 individuals of two sea turtle species (loggerhead sea turtles, n = 45; leatherback turtles, n = 4) stranded in Murcia (South-eastern Spain) coastline between 2009 and 2018. In accordance with the literature, muscle was the tissue with the highest concentrations in both species, followed by liver and kidney. Although differences in arsenic concentrations were not statistically significant between the study species, loggerhead sea turtles showed concentrations two or three times higher than those of leatherback turtles, which we attribute to differences on feeding behavior and habitat preferences. Arsenic concentrations in turtles from this area increase evidence of western Mediterranean Sea as a hotspot for metal pollution. Based on the scarce existing knowledge on arsenic toxicity in sea turtles, those levels found in our study are below those responsible for liver damage. [ABSTRACT FROM AUTHOR]

Published

2021

3. A novel approach to estimate the distribution, density and at-sea risks of a centrally-placed mobile marine vertebrate.

Author

Pikesley, Stephen K., Agamboue, Pierre Didier, Bayet, Jean Pierre, Bibang, Jean Noel, Bonguno, Eric Augowet, Boussamba, François, Broderick, Annette C., Coyne, Michael S., Du Plessis, Philippe, Faure, François Edgard, Fay, J. Michael, Formia, Angela, Godley, Brendan J., Kema, Judicael Regis Kema, Mabert, Brice Didier Koumba, Manfoumbi, Jean Churley, Asseko, Georges Mba, Metcalfe, Kristian, Minton, Gianna, and Nelms, Sarah

Subjects

*MARINE species diversity, *HABITATS, *LEATHERBACK turtle, *TERRITORIAL waters, *SHIPBORNE automatic identification systems

Abstract

Formulating management strategies for mobile marine species is challenging, as knowledge is required of distribution, density, and overlap with putative threats. As a step towards assimilating knowledge, ecological niche models may identify likely suitable habitats for species, but lack the ability to enumerate species densities. Traditionally, this has been catered for by sightings-based distance sampling methods that may have practical and logistical limitations. Here we describe a novel method to estimate at-sea distribution and densities of a marine vertebrate, using historic aerial surveys of Gabonese leatherback turtle ( Dermochelys coriacea ) nesting beaches and satellite telemetry data of females at sea. We contextualise modelled patterns of distribution with putative threat layers of boat traffic, including fishing vessels and large ship movements, using Vessel Monitoring System (VMS) and Automatic Identification System (AIS) data. We identify key at-sea areas in which protection for inter-nesting leatherback turtles could be considered within the coastal zone of Gabonese Exclusive Economic Zone (EEZ). Our approach offers a holistic technique that merges multiple datasets and methodologies to build a deeper and insightful knowledge base with which to manage known activities at sea. As such, the methodologies presented in this study could be applied to other species of sea turtles for cumulative assessments; and with adaptation, may have utility in defining critical habitats for other central-place foragers such as pinnipeds, or sea bird species. Although our analysis focuses on a single species, we suggest that putative threats identified within this study (fisheries, seismic activity, general shipping) likely apply to other mobile marine vertebrates of conservation concern within Gabonese and central African coastal waters, such as olive ridley sea turtles ( Lepidochelys olivacea ), humpback dolphins ( Sousa teuszii ) and humpback whales ( Megaptera novaeangliae ). [ABSTRACT FROM AUTHOR]

Published

2018

4. Sea turtle strandings along the Northwestern Moroccan coast: Spatio-temporal distribution and main threats.

Author

Mghili, Bilal, Benhardouze, Wafae, Aksissou, Mustapha, and Tiwari, Manjula

Subjects

SEA turtles, LOGGERHEAD turtle, LEATHERBACK turtle, TURTLE conservation, BYCATCHES, COASTS

Abstract

We present the first research carried out on a large spatio-temporal scale (324 km) on sea turtle strandings during a 24-year period (1998–2022) in northwestern Morocco. A total of 208 stranded turtles were recorded. Among these were 184 (88.47%) loggerheads, (Caretta caretta) , 21 (10.09%) leatherbacks, (Dermochelys coriacea) , and 3 (1.44%) unidentified sea turtles. Strandings were most numerous in the summer and early spring, which coincides with the largest trawler, purse seine and longline fishing effort near the Moroccan coast. The majority of loggerhead turtles measured were subadult individuals (81%), while the stranded leatherback turtles included subadults and adults. Our data demonstrate that Moroccan coastal waters provides important development, foraging and/or migration habitats for loggerhead and leatherback turtles, and fisheries bycatch and boat strikes may be the major threats to sea turtles in Moroccan waters. This study serves as an important baseline for the development of sea turtle conservation efforts in the near-shore waters of the Moroccan Mediterranean coast. • During this study, 208 strandings of two sea turtle species were reported. • The main causes of sea turtle strandings are fishing and collisions with ships. • The majority of individual loggerhead turtles are subadults (81%). • Moroccan waters could be an important foraging ground for sea turtles. [ABSTRACT FROM AUTHOR]

Published

2023

5. Large-scale investment in the excavation and "camouflaging" phases by nesting Leatherback Turtles (Dermochelys coriacea).

Author

Burns, Thomas J., Davidson, Hannah, and Kennedy, Malcolm W.

Subjects

*LEATHERBACK turtle, *CAMOUFLAGE (Biology), *NEST building, *PREDATION, *OXYGEN consumption

Abstract

Nesting female Leatherback Turtles (Dermochelys coriacea (Vandelli, 1761)) are ungainly and vulnerable to predation, stranding, and physiological stress, dangers encountered repeatedly in a nesting season. Minimising these risks must be balanced against optimising investment in nest-site selection, excavation, refilling, and concealment of their egg clutches. We investigated the relative investment in the different phases of nesting in Leatherback Turtles by recording the duration of, and respiratory frequency during, each phase. Nest excavation and the final sand scattering (usually termed "camouflage" or "disguise") phases were the longest in duration. By combining the relative durations of nesting phases with literature estimates of oxygen consumption, we found that these may be the most expensive phases energetically, sand scattering in particular. Leatherback Turtles follow convoluted paths during the sand scattering phase, which were mapped and measured. They disturb large areas (mean (±SD) 30.3 ± 11.1 m², maximum 57 m²), the centroids of which were always offset from the nest itself. Interestingly, in none of 26 nestings observed did the centre line of females move over the nest itself. Nesting Leatherbacks therefore invest heavily in obscuring the egg clutch, and the pattern of their movements in doing so suggests decoy behaviour. [ABSTRACT FROM AUTHOR]

Published

2016

6. Nesting ecology and population trend of leatherback turtles Dermochelys coriacea at Pacuare Nature Reserve, Costa Rica.

Author

Rivas, Marga L., Fernández, Carlos, and Marco, Adolfo

Subjects

*LEATHERBACK turtle, *ANIMAL species, *ANIMAL ecology, *NEST building, *ANIMAL population estimates

Abstract

The leatherback turtle Dermochelys coriacea, the only extant species in its family, is categorized as Vulnerable on the IUCN Red List. The protection of nesting beaches and the associated conservation efforts along the Western Atlantic coast of Central America have improved the population trends of some of the most important rookeries. Here we report the life history, ecology and population trends of leatherback turtles over 18 years (1994–2012, excluding 1998) of effective protection in the Pacuare Nature Reserve, on the Caribbean coast of Costa Rica. A mean density of 142 nests per km, probably the highest in Central America, indicates the importance of this rookery within the Caribbean region. Long-term conservation efforts at the Reserve have significantly reduced poaching and contributed to maintaining a high level of hatchling production. Long-term monitoring has also facilitated estimation of relevant demographic parameters of the population, such as nesting success (mean 69.8 ± SD 7.3%), clutch size (which is positively correlated with female size), hatching success (mean 55.2 ± SD 6.0%), remigration interval (2.5 years), and growth rate of remigrant females (mean 0.3 ± SD 1.0 cm per year), which is slightly faster than growth rates reported for Pacific leatherback turtles. Overall, efforts at Pacuare have been successful in protecting leatherback turtles and understanding their life history, highlighting the importance of long-term conservation projects for maintaining threatened leatherback populations. [ABSTRACT FROM AUTHOR]

Published

2016

7. Fine-scale foraging ecology of leatherback turtles

Author

Bryan P Wallace, Michael eZolkewitz, and Michael C James

Subjects

diving behavior, optimal foraging, predator-prey, critical habitat, Migratory species, Leatherback turtles, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Remote tracking of migratory species and statistical modeling of behaviors have enabled identification of areas that are of high ecological value to these widely distributed taxa. However, direct observations at fine spatio-temporal scales are often needed to correctly interpret behaviors. In this study, we combined GPS-derived locations and archival dive records (1 sec sampling rate) with animal-borne video footage from foraging leatherback turtles (Dermochelys coriacea) in Nova Scotia, Canada (Northwest Atlantic Ocean) to generate the most highly detailed description of natural leatherback behavior presented to date. Turtles traveled shorter distances at slower rates and increased diving rates in areas of high prey abundance, which resulted in higher prey capture rates. Increased foraging effort (e.g., dive rate, dive duration, prey handling time, number of bites) was not associated with increased time at the surface breathing to replenish oxygen stores. Instead, leatherbacks generally performed short, shallow dives in the photic zone to or above the thermocline, where they disproportionately captured prey at bottoms of dives and during ascents. This foraging strategy supports visual prey detection, allows leatherbacks to exploit physically structured prey at relatively shallow depths (typically

Published

2015

8. Climate change overruns resilience conferred by temperature-dependent sex determination in sea turtles and threatens their survival.

Author

Santidrián Tomillo, Pilar, Genovart, Meritxell, Paladino, Frank V., Spotila, James R., and Oro, Daniel

Subjects

*SEA turtles, *TURTLE reproduction, *PHYSIOLOGICAL effects of climate change, *REPTILE sex ratio, *CLIMATE change mathematical models, *LEATHERBACK turtle, *TEMPERATURE-dependent sex determination, *GENETIC sex determination

Abstract

Temperature-dependent sex determination (TSD) is the predominant form of environmental sex determination (ESD) in reptiles, but the adaptive significance of TSD in this group remains unclear. Additionally, the viability of species with TSD may be compromised as climate gets warmer. We simulated population responses in a turtle with TSD to increasing nest temperatures and compared the results to those of a virtual population with genotypic sex determination (GSD) and fixed sex ratios. Then, we assessed the effectiveness of TSD as a mechanism to maintain populations under climate change scenarios. TSD populations were more resilient to increased nest temperatures and mitigated the negative effects of high temperatures by increasing production of female offspring and therefore, future fecundity. That buffered the negative effect of temperature on the population growth. TSD provides an evolutionary advantage to sea turtles. However, this mechanism was only effective over a range of temperatures and will become inefficient as temperatures rise to levels projected by current climate change models. Projected global warming threatens survival of sea turtles, and the IPCC high gas concentration scenario may result in extirpation of the studied population in 50 years. [ABSTRACT FROM AUTHOR]

Published

2015

9. Beach morphological changes in response to marine turtles nesting: a preliminary study of Awala-Yalimapo beach, French Guiana (South America).

Author

Péron, Christina, Chevallier, Damien, Galpin, Martin, Chatelet, Andy, Anthony, Edward J., Le Maho, Yvon, and Gardel, Antoine

Subjects

*SEA turtles, *GEOMORPHOLOGY, *AQUATIC habitats, *BEACHES, *BIOTURBATION, *NEST building

Abstract

Péron, C. , Chevallier, D., Martin G., Chatelet A., Anthony, E.J., Le Maho Y., Gardel, A., 2013. Beach morphological changes in response to marine turtles nesting: a preliminary study of Awala-Yalimapo beach, French Guiana (South America) Each year from February through July, Chelonia mydas (green turtles) and Dermochelys coriacea (leatherback turtles) come to nest on Awala-Yalimapo beach. During the nesting season, the presence of gravid turtles may directly affect the general morphology of the beach by provoking sand remobilization during firstly the conception of their nest and then during the nest disguising. Digital elevation models were realized to qualify and quantify the topographic modification conducted by the macro-bioturbation effect of marine turtles. Green turtles and leatherback turtles do not provoke the same perturbation on the beach. C. mydas affect the upper part of the beach by constructing their nest. Whereas D.coriacea provoke more important impact on the lower upper-beach when they come to lay. During the covering activity leatherback tend to disturb the morphology of the beach around their nests. Morphological changes on the beach during the nesting season draw attention to the potential effect of animal on their terrestrial habitat. [ABSTRACT FROM AUTHOR]

Published

2013

10. Coastal management, climate change adaptation and sustainability in small coastal communities: leatherback turtles and beach loss.

Author

Mycoo, Michelle and Gobin, Judith

Subjects

COASTAL zone management, CLIMATE change research, LEATHERBACK turtle, SUSTAINABLE development, ECOSYSTEM dynamics

Abstract

Beaches are frequently subjected to erosion and accretion that are influenced by coastal development interventions and natural variations due to storms and changes in river flow. Climate change may also exacerbate beach erosion and accretion. Natural scientists are concerned with the sustainability of species dependent on the beach ecosystem. Policymakers are pre-occupied with the economic sustainability of coastal communities should species decline and prolonged beach loss occur. The aim of this paper is to explore the linkage between science and policy by reporting the findings of a study of coastal change impacts on leatherback turtle nesting and analysing the socio-economic and adaptation implications of these changes for coastal communities. Grande Riviere, Trinidad, was used as a case study. Primary fieldwork investigated unsustainable coastal management practices. A questionnaire was administered to examine livelihoods, including ecotourism based on leatherback turtle nesting, and knowledge and awareness of climate change. One key finding of the study was that the community's livelihoods were natural resources dependent, and that natural beach dynamics and unsustainable coastal management practices posed major threats to natural resource and economic sustainability. Another key finding was that, despite these impacts, community knowledge and awareness of climate change in general was low, and there was a perception of state responsibility for climate change adaptation. The research findings have global applicability for coastal communities at risk of exposure and that are highly vulnerable to natural resources damage arising from anthropogenic stress and potential climate change. These communities require policy reforms to strengthen current coastal management practices and adaptation responses aimed at ensuring long-term sustainability. [ABSTRACT FROM AUTHOR]

Published

2013

11. A review of the adaptive significance and ecosystem consequences of zooplankton diel vertical migrations.

Author

Hays, Graeme C.

Subjects

*FRESHWATER zooplankton, *VERTICAL distribution (Aquatic biology), *PREDATORY animals, *MARINE animals, *MARINE organisms, *AQUATIC biology

Abstract

Diel vertical migration (DVM) by zooplankton is a universal feature in all the World's oceans, as well as being common in freshwater environments. The normal pattern involves movement from shallow depths at night to greater depths during the day. For many herbivorous and omnivorous mesozooplankton that feed predominantly near the surface on phytoplankton and microzooplankton, minimising the risk of predation from fish seems to be the ultimate factor behind DVM. These migrants appear to use deep water as a dark daytime refuge where their probability of being detected and eaten is lower than if they remained near the surface. Associated with these vertical movements of mesozooplankton, predators at higher trophic levels, including invertebrates, fish, marine mammals, birds and reptiles, may modify their behaviour to optimise the exploitation of their vertically migrating prey. Recent advances in biotelemetry promise to allow the interaction between migrating zooplankton and diving air-breathing vertebrates to be explored in far more detail than hitherto. [ABSTRACT FROM AUTHOR]

Published

2003

12. Bycatch and release of pelagic megafauna in industrial trawler fisheries off Northwest Africa

Author

Erik de Graaf, JaapJan Zeeberg, and Ad Corten

Subjects

RIVO Biologie en Ecologie, biology, sea, Biodiversity, Cetacea, Pelagic zone, Subtropics, Aquatic Science, biology.organism_classification, Chondrichthyes, ocean, Bycatch, Fishery, Oceanography, Geography, Abundance (ecology), Megafauna, leatherback turtles, atlantic

Abstract

The accidental capture of large animals such as sharks, manta rays, sea turtles, and dolphins in pelagic trawler fisheries remains controversial because it threatens biological diversity in many biogeographical regions, including the subtropical eastern North Atlantic. Bycatch rates observed during more than 1400 trawl sets off Mauritania, Northwest Africa, are shown to have been considerable during the past 4 years, with high animal abundance in Summer when the Northwest African shelf is occupied by subtropical water. We demonstrate the urgency for bycatch reduction and evaluate the use of species-selective gear, a conservation method immediately available and immediately effective in waters fished through international access agreements. A modification tested in commercial trawls during the observer program guides pelagic megafauna deflected by a filter to an escape tunnel along the bottom of the trawl. This “excluder” reduces bycatch mortality of the most vulnerable megafauna species by at least 40–100%.

Published

2006

13. Predicting residence time using a continuous‐time discrete‐space model of leatherback turtle satellite telemetry data.

Author

Hoover, Aimee L., Liang, Dong, Alfaro‐Shigueto, Joanna, Mangel, Jeffrey C., Miller, Peter I., Morreale, Stephen J., Bailey, Helen, and Shillinger, George L.

Subjects

SATELLITE telemetry, LEATHERBACK turtle, OCEAN temperature, ANIMAL mechanics, ENVIRONMENTALISM, ENDANGERED plants

Abstract

The utilization and capabilities of biotelemetry are expanding enormously as technology and access rapidly improve. These large, correlated datasets pose statistical challenges requiring advanced statistical techniques to appropriately interpret and model animal movement. We used satellite telemetry data of critically endangered Eastern Pacific leatherback turtles (Dermochelys coriacea) to develop a habitat‐based model of their motility (and conversely residence time) using a hierarchical Bayesian framework, which could be broadly applied across species. To account for the spatiotemporally auto‐correlated, unbalanced, and presence‐only telemetry observations, in combination with dynamic environmental variables, a novel modeling approach was applied. We expanded a Poisson generalized linear model in a continuous‐time discrete‐space (CTDS) model framework to predict individual leatherback movement based on environmental drivers, such as sea surface temperature. Population‐level movement estimates were then obtained with a Bayesian approach and used to create monthly, near real‐time predictions of Eastern Pacific leatherback movement in the South Pacific Ocean. This model framework will inform the development of a dynamic ocean management model, "South Pacific TurtleWatch (SPTW)," and could be applied to telemetry data from other populations and species to predict motility and residence times in dynamic environments, while accounting for statistical uncertainties arising at multiple stages of telemetry analysis. [ABSTRACT FROM AUTHOR]

Published

2019

14. Orientation behaviour of leatherback sea turtles within the North Atlantic subtropical gyre.

Author

Dodge, Kara L., Galuardi, Benjamin, and Lutcavage, Molly E.

Subjects

*LEATHERBACK turtle, *REPTILE migration, *ARTIFICIAL satellite tracking, *OCEAN gyres, *ANIMAL behavior

Abstract

Leatherback sea turtles (Dermochelys coriacea) travel thousands of kilometres between temperate feeding and tropical breeding/over-wintering grounds, with adult turtles able to pinpoint specific nesting beaches after multi-year absences. Their extensive migrations often occur in oceanic habitat where limited known sensory information is available to aid in orientation. Here, we examined the migratory orientation of adult male, adult female and subadult leatherbacks during their open-ocean movements within the North Atlantic subtropical gyre by analysing satellite-derived tracks from fifteen individuals over a 2-year period. To determine the turtles' true headings, we corrected the reconstructed tracks for current drift and found negligible differences between current-corrected and observed tracks within the gyre. Individual leatherback headings were remarkably consistent throughout the subtropical gyre, with turtles significantly oriented to the south-southeast. Adult leatherbacks of both sexes maintained similar mean headings and showed greater orientation precision overall. The consistent headings maintained by adult and subadult leatherbacks within the gyre suggest use of a common compass sense. [ABSTRACT FROM AUTHOR]

Published

2015

15. Energy budget calculations indicate resource limitation in Eastern Pacific leatherback turtles

Author

Wallace, Bryan P., Kilham, Susan S., Paladino, Frank V., and Spotila, James R.

Published

2006

16. Jellyfish Aggregations and Leatherback Turtle Foraging Patterns in a Temperate Coastal Environment

Author

Houghton, Jonathan D. R., Doyle, Thomas K., Wilson, Mark W., Davenport, John, and Hays, Graeme C.

Published

2006