Holistic nursing approach to trauma wound management in a loggerhead sea turtle

Wildlife Vets International provide support to many non-governmental organisations (NGOs) around the world with many species. The requirements for each species and project are different, but they are linked by the need to assess and if possible address all elements that will allow wound healing to occur. Sea turtles are a highly charismatic species and face many threats in the wild. Veterinary care of sea turtles needs to be optimal and carried out in a timely manner. Providing correct husbandry is essential for the healing of all reptile wounds, including sea turtles. It is important to remember we are nursing an intelligent, exothermic, ureotelic species, with a requirement for UV light, which is likely to be experiencing significant stress which we need to try and mitigate. Veterinary nurses are well placed to assist in assessing all these factors, documenting these assessments, creating care plans/bundles and, of course, carrying out the wound management itself. Dealing with the wound healing of wild animals is very challenging and complicated. A dynamic and holistic approach is essential, although sometimes overlooked, and every effort must be made to reduce treatment times. This will both improve welfare while under veterinary care, and will hopefully allow a timely return to the wild. New wound management products are becoming available all the time, and it is important that veterinary professionals are always looking for how they can use these in their wild animal patients, as well as always questioning why they use the materials they use.

Nesting activity of the Loggerhead sea turtle, Caretta caretta, in Calabria: 2016-2020 reproductive seasons

The nesting activity of the loggerhead turtle along the coast of Calabria during five reproductive seasons (2016-2020) is presented. From May to August, survey methods were conducted using traditional observations on foot and utilizing additional innovative technologies, including electric fat bikes and drones. Monitoring was intensively focused on a key nesting area of approximately 40 km located on the southernmost Ionian coast of Reggio Calabria, and, for only the 2020 season, the area was extended an additional 40 km northeast. In the five nesting seasons, 419 female emergences were recorded, 192 of which were classified as nests. Overall, 65.1% (n = 125) of nests were found along the area regularly monitored in all nesting seasons. The maximum nesting activity was observed during July, and the mean nesting success was 45.8%. The average number of eggs for all seasons was 92.2 (n = 163; S.D.: ± 21.1; range: 39-160). The mean hatching and emergence success rates were 70.8% and 62.5%, respectively. The mean incubation period was 49 days (n = 122; S.D.: ± 5.4; range: 42-82). Considering previous data from the same area, our study shows an actual increase in nesting activity, probably due to the implementation of an effective monitoring method that includes the use of new technologies, which made it possible to expand the regularly monitored area, and a greater awareness campaign in recent years. Regarding the reproductive parameters, our data is similar to that reported for other Mediterranean nesting grounds.

Tissue and Temperature-Specific RNA-Seq Analysis Reveals Genomic Versatility and Adaptive Potential in Wild Sea Turtle Hatchlings (Caretta caretta)

Background: Digital transcriptomics is rapidly emerging as a powerful new technology for modelling the environmental dynamics of the adaptive landscape in diverse lineages. This is particularly valuable in taxa such as turtles and tortoises (order Testudines) which contain a large fraction of endangered species at risk due to anthropogenic impacts on the environment, including pollution, overharvest, habitat degradation, and climate change. Sea turtles (family Cheloniidae) in particular invite a genomics-enabled approach to investigating their remarkable portfolio of adaptive evolution. The sex of the endangered loggerhead sea turtle (Caretta caretta) is subject to temperature-dependent sex determination (TSD), a mechanism by which exposure to temperatures during embryonic development irreversibly determines sex. Higher temperatures produce mainly female turtles and lower temperatures produce mainly male turtles. Incubation temperature can have long term effects on the immunity, migratory ability, and ultimately longevity of hatchlings. We perform RNA-seq differential expression analysis to investigate tissue- and temperature-specific gene expression within brain (n = 7) and gonadal (n = 4) tissue of male and female loggerhead hatchlings. Results: We assemble tissue- and temperature-specific transcriptomes and identify differentially expressed genes relevant to sexual development and life history traits of broad adaptive interest to turtles and other amniotic species. We summarize interactions among differentially expressed genes by producing network visualizations, and highlight shared biological pathways related to migration, immunity, and longevity reported in the avian and reptile literature. Conclusions: The measurement of tissue- and temperature-specific global gene expression of an endangered, flagship species such as the loggerhead sea turtle (Caretta caretta) reveals the genomic basis for potential resiliency and is crucial to future management and conservation strategies with attention to changing climates. Brain and gonadal tissue collected from experimentally reared loggerhead male and female hatchlings comprise an exceedingly rare dataset that permits the identification of genes enriched in functions related to sexual development, immunity, longevity, and migratory behavior and will serve as a large, new genomic resource for the investigation of genotype–phenotype relationships in amniotes.

Transplastron Enterocentesis to Manage Buoyancy Disorder in an Adult Loggerhead Sea Turtle (Caretta caretta)

Buoyancy disorder in sea turtles is a common condition that contributes to increased morbidity and mortality in the wild and because of this, is often encountered in rehabilitation facilities. The pathological gas accumulation that is a sequelae of this disorder can create challenges in treatment of this disease, especially when concurrent systemic disease is present. These challenges increase with patient size, as anatomy and location of pathology makes gas evacuation more difficult utilizing conventional methods when medical therapy alone is unsuccessful. This report discusses a novel technique utilizing ultrasonic-guided transplastron enterocentesis of the proximal gastrointestinal tract in an adult loggerhead sea turtle ( Caretta caretta ) with suspected intestinal obstruction. The sea turtle presented with positive buoyancy and routine workup revealed gas accumulation in the gastrointestinal tract, as well as concurrent pneumonia. Medical therapy alone did not diminish the positive buoyancy or gastrointestinal distension. Ultrasonic-guided transplastron enterocentesis was performed via the connective tissue lateral to the 3rd inframarginal scute while the turtle was positioned with its left side raised, allowing any gas-filled intestine to be positioned laterally. Approximately 10.3 L of gas were evacuated from the proximal gastrointestinal lumen and within 15 mins, the turtle was neutrally buoyant. It continued to exhibit normal surfacing, diving, and resting behavior. The turtle was released 111 days after enterocentesis in order to allow treatment of the concurrent pneumonia. The technique discussed in this report has implications for improving treatment of buoyancy disorder in large adult sea turtles and increasing likelihood of release.

Globally important refuge for the loggerhead sea turtle: Maio Island, Cabo Verde

One of the largest nesting colonies of the Vulnerable loggerhead sea turtle Caretta caretta is in Cabo Verde. Here we present the first comprehensive study of loggerhead turtle nesting on the island of Maio in Cabo Verde. During 2016–2019 we monitored 38 km of undeveloped sandy beaches that have minimal artificial lighting and where all nesting on Maio takes place. We counted 4,063 nests in 2016, 5,429 in 2017, 14,364 in 2018 and 7,937 in 2019. The estimated total number of females was 1,016, 1,357, 3,591 and 1,984 in each of these years, respectively. Our findings suggest there are more loggerhead turtles nesting in Cabo Verde than previously estimated, and that this could be the species’ largest nesting subpopulation (followed by Florida, USA and Oman). The inter-annual hatching success (the proportion of eggs producing hatchlings) was 29–38% for the whole island but varied between sites. Our study of 250 clutches showed that flooding affected 38–61% and predation by crabs 40–42%, with hatching success on different beaches in the range of 1–59%. Poaching of eggs was rare (< 2% of clutches), but dogs predated 68.4% of all clutches on the beach nearest the largest human settlement. We evaluated different nest management strategies at multiple sites and estimated productivity of hatchlings (the number of hatchlings that would reach the sea for each management strategy), finding that hatcheries are not always the best option for nest management. As the beaches on Maio are relatively undisturbed, and there is a high abundance and density of turtle nests, the island should be protected as a globally important site for the conservation of the loggerhead turtle, and of coastal biodiversity more broadly.

Exposure of Loggerhead Sea Turtle Nests to Waves in the Florida Panhandle

Wave wash-over poses a significant threat to sea turtle nests, with sustained exposure to waves potentially resulting in embryonic mortality and altered hatchling locomotor function, size, and sex ratios. Identifying where and under what conditions wave exposure becomes a problem, and deciding what action(s) to take (if any), is a common issue for sea turtle managers. To determine the exposure of sea turtle nests to waves and identify potential impacts to hatchling productivity, we integrated a geographic information system with remote sensing and wave runup modeling across 40 nesting beaches used by the Northern Gulf of Mexico Loggerhead Recovery Unit. Our models indicate that, on average, approximately 50% of the available beach area and 34% of nesting locations per nesting beach face a significant risk of wave exposure, particularly during tropical storms. Field data from beaches in the Florida Panhandle show that 42.3% of all nest locations reported wave exposure, which resulted in a 45% and 46% decline in hatching and emergence success, respectively, relative to their undisturbed counterparts. Historical nesting frequency at each beach and modeled exposure to waves were considered to identify priority locations with high nesting density which either experience low risk of wave exposure, as these are good candidates for protection as refugia for sustained hatchling production, or which have high wave exposure where efforts to reduce impacts are most warranted. Nine beaches in the eastern Florida Panhandle were identified as priority sites for future efforts such as habitat protection or research and development of management strategies. This modeling exercise offers a flexible approach for a threat assessment integration into research and management questions relevant to sea turtle conservation, as well as for other beach species and human uses of the coastal environment.