Development and application of a multistate model to the northern subpopulation of loggerhead sea turtles

Hedges, Melissa Elizabeth

16 May 2007

Loggerhead sea turtles (Caretta caretta) are listed as threatened under the Endangered Species Act and are protected both on nesting beaches and in United States waters. Loggerhead sea turtles are long-lived species and are most easily studied on the beaches during the nesting season. Bald Head Island, North Carolina has one of the highest density nesting beaches of loggerhead sea turtles in the turtle's northern range on the East Coast of the United States. Key life history parameters were estimated and applied to a population model using 16 years of data from a mark-recapture study on the loggerhead sea turtle nesting population on Bald Head Island, North Carolina. The beach survey conducted on the island only allowed for the capture of adult female sea turtles during the breeding state even though females may spend multiple years in the unobservable non-breeding state. The majority of females captured over the last 16 years have never been recaptured at the original capture site. These transients in the data coupled with unobservable states violate the assumption of equal catchability in the available single state mark-recapture models. Therefore, a multistate mark- recapture model originally developed for leatherback sea turtles was applied to the Bald Head Island loggerhead population. Multistate modeling provides a new technique to estimate sea turtle demographic parameters in which all model assumptions can be met. The multistate model outputs female survival rates, capture probability, and transition probabilities between breeding and non-breeding states. A correction factor for trap-dependence and transients was included given that both factors tested significant in the global model goodness-of-fit tests. The estimates of annual adult survival rate and breeding transitions were then used to project population size for the northern subpopulation. For the first time, estimation error around estimates of benthic juvenile and adult survival rates was included in a loggerhead sea turtle model. I explored the effects of estimation error, three levels of clutch frequency, and larger TED openings on population growth rate and on the probability of reaching a nesting recovery threshold. The nesting recovery threshold was based upon recovery criteria from the Federal Recovery Plan and set as the probability of reaching 12,800 nests/season in the states of North Carolina, South Carolina, and Georgia within a 50 year time period. The results of this study provide important information to guide future management and research. / Master of Science

population dynamics

multistate model

loggerhead sea turtle

Beyond the Beach: Population Trends and Foraging Site Selection of a Florida Loggerhead Nesting Assemblage

Phillips, Katrina

04 May 2011

A twenty year mark-recapture dataset from the loggerhead nesting beach on Keewaydin Island, off the southwest coast of Florida, was analyzed using a two-state open robust design model in Program MARK to provide insight into recent nesting declines in the state. A total of 2,292 encounters representing 841 individual tag IDs were used for this analysis. Survival was estimated at 0.73 (95% CI 0.69-0.76), and there was no evidence from remigration rate or clutch frequency to suggest the composition of the nesting assemblage had changed over time. The mark-recapture analysis was supplemented with a satellite tracking component to identify the offshore foraging areas utilized by Keewaydin nesters. Eleven nesting females were outfitted with platform terminal transmitters, which transmitted for 42 to 300+ days including inter-nesting intervals and subsequent migration to foraging grounds. Site fidelity tests and kernel density home range analyses were used to describe foraging habitats. Females foraging in the eastern Gulf of Mexico were within the recent 64 m bottom longline fishery restriction. Areas identified as important habitats during the remigration interval should be used to inform managers in creating targeted management strategies to aid population recovery without the use of broad fishery closures.

Loggerhead sea turtle

mark-recapture

remigration

satellite telemetry

foraging

management

Beach Compaction Impact on Nesting Success of Loggerhead (Caretta caretta) Sea Turtles: A Comparison Between a Natural and Renourished Beach in Northern Broward County, Florida

Kleppan, Danielle R.

01 August 2013

The beaches of Broward County, Florida are a prevalent nesting site for loggerhead (Caretta caretta) sea turtles, however extensive beach erosion is threatening critical nesting habitat. Beach renourishment, the process of transporting offshore or upland sediment onshore, is a widely used method of replenishing lost sand. However, renourishment can negatively affect sea turtle nesting habitat by increasing beach compaction; the resistance to applied pressure in pounds per square inch (psi). Increased sand compaction impedes the digging of the female which affects nesting success. The influence of beach compaction on sea turtle nesting patterns has never been previously examined over the course of a nesting season on Hillsboro and Deerfield Beach. Therefore, this study was designed to examine beach compaction data for Hillsboro, a mostly natural beach, and Deerfield, a completely renourished beach, during the 2010 nesting season and analyze the compaction data against 2010 nest and false crawl (FC, non-nesting emergence) data. Compaction readings were collected during every other week March-October using a soil compaction meter at every other street address along three beach positions, the dune base, mid-beach, and average high tide line (HTL); and at three depths, 15 cm, 30 cm, and 45 cm. Values were not statistically different throughout the season for each beach, so seasonal mean compaction values were used for each beach position and depth. Hillsboro compaction values were rarely over 500 psi (35 kg/cm2), even at 45 cm depth. Deerfield compaction values exceeded the 600 psi (42kg/cm2) measurement limit of the meter in approximately 60% of the compaction values at 30 cm or 45 cm depth. Sand compaction data was analyzed for any trends between beaches as well as within each beach. Historical data shows higher loggerhead nesting success, the number of nests/total number of crawls (including FC) x 100, on Hillsboro Beach than on Deerfield Beach. The average beach compaction values were compared to nesting success and to nest and FC density within each station area. There was a significant inverse relationship (p<0.05) between beach compaction and nesting success at each of the beach positions and depths, when both Hillsboro and Deerfield Beaches were analyzed together, except at the Mid 30 cm and Dune 45 cm depth. The strongest relationship for the combined beaches was at the HTL 15 cm depth (R2=0.3821, p<0.001). When Hillsboro was analyzed alone, beach compaction and nesting success was only significantly inversely related (R2=0.0875, p<0.02) at the HTL 15 cm depth. This demonstrates that while increased beach compaction may partially influence nesting success, there are likely other beach characteristics that contribute to nest site selection of loggerheads in Northern Broward County. The inverse relationship between Hillsboro mean beach compaction and nest density (nests per meter) was significant only at the HTL 15cm depth (p<0.002) and the inverse relationship between mean beach compaction and false crawl density (FC per meter) in Hillsboro was only significant at the Dune 15 cm (p<0.019) and the Dune 30 cm (p<0.038) depths. Although, increased beach compaction was expected to relate to higher FC density, FC density showed a significant inverse relationship to mean beach compaction at all Deerfield Beach positions and depths in and this suggests off-shore factors may be affecting nest site selection.

loggerhead sea turtle nesting

beach compaction

beach renourishment

nest site selectionm

Marine Biology

Investigating the Effect of Mechanical Beach Cleaning on Nesting, Hatching and Emergence Success of Loggerhead (Caretta caretta) and Green (Chelonia mydas) Sea Turtles in Broward County, Florida

Earney, Megan A

28 July 2017

Sea turtles face many threats to their populations globally. Loggerhead sea turtles (Caretta caretta) and green sea turtles (Chelonia mydas) are listed by the International Union for the Conservation of Nature Red List as Endangered. In Florida, loggerhead and green sea turtles nest along the coastline during April-September. Mechanical beach cleaning is an aesthetic service performed daily on some beaches in Florida to clean the wrack line and/or the entire beach of debris. Alterations made to beaches by methods such as mechanical beach cleaning have the potential to impact sea turtle nesting, hatching, and emergence success. Generalized linear mixed models were performed to investigate the impacts of mechanical beach cleaning on nesting, hatching and emergence success of loggerhead and green turtles from 1997-2015 in Broward County, Florida. The results showed mechanical beach cleaning had an effect on nesting success, however, hatching and emergence success were not affected by mechanical beach cleaning. These results indicate that mechanical beach cleaning cannot solely be used to determine sea turtle management or conservation guidelines in Broward County.

loggerhead sea turtle

green sea turtle

GLMM

nesting success

hatching success

emergence success

Broward County.

Marine Biology

Habitat use and distribution of the loggerhead sea turtle (Caretta caretta) in the Mediterranean Sea: Implications for marine planning strategies

Abalo Morla, Sara

06 November 2023

Tesis por compendio / [ES] Las tortugas bobas son organismos de gran movilidad que ocupan hábitats extensos y diversos, lo que las expone a varias amenazas que pueden afectar negativamente a la persistencia de sus poblaciones. Delinear medidas prioritarias de conservación para esta especie es todo un reto debido a la escasez del conocimiento integrado sobre su supervivencia, uso de hábitat y exposición relativa a amenazas, especialmente durante las primeras etapas de su ciclo vital. En la cuenca occidental del mar Mediterráneo esto adquiere mayor relevancia si se contextualiza en el proceso de colonización que está teniendo lugar en la zona durante la última década. Se ha registrado un aumento en el número de nidos y hembras nidificantes, para cuya protección se han tomado medidas de gestión como la reubicación de nidos y la inclusión de neonatos en programas de "head-starting". Esta coyuntura ha ofrecido una oportunidad única para incrementar el conocimiento sobre la supervivencia, dispersión y uso de hábitat de hembras nidificantes y post-neonatos de tortuga boba. Ninguna investigación previa ha realizado un seguimiento por satélite de hembras nidificantes en el Mediterráneo occidental, ni de post-neonatos mediterráneos con tamaño inferior a 35 cm. La finalidad de esta tesis es abordar las lagunas de conocimiento mencionadas y aportar herramientas para mejorar las estrategias de planificación marina dirigidas a la conservación de la tortuga boba en el Mediterráneo. Los principales objetivos fueron: i) proporcionar las primeras estimaciones empíricas de supervivencia de post-neonatos, ii) dilucidar las rutas de dispersión y el uso de hábitat en las diferentes etapas del ciclo vital, iii) identificar áreas relevantes para su protección, iv) evaluar la eficacia de las actuales áreas marinas protegidas (AMPs) para la conservación de la tortuga boba, y v) proponer medidas de conservación basadas en el análisis espacial. Para ello, se analizaron las trayectorias de 117 tortugas seguidas vía satélite entre 2003 y 2022. Estos datos incluyen las primeras trayectorias de hembras nidificantes en España y de post-neonatos mediterráneos, que se han publicado en un repositorio. Además, se realizó la primera evaluación del uso de hábitat y de AMPs por tortugas bobas marcadas en el Mediterráneo occidental, a lo largo de su ciclo vital. Los resultados de esta tesis muestran, por primera vez, la capacidad de supervivencia y dispersión, así como uso de hábitat de post-neonatos de tortuga boba en el Mediterráneo. Los mares Jónico y de Levante se identificaron como zonas potenciales de desarrollo de post-neonatos. Por otro lado, las hembras mostraron dos comportamientos diferentes durante el periodo de inter-anidación: i) fidelidad a la zona de nidificación, o ii) comportamiento exploratorio de nidificación. Durante la etapa no reproductora, la mayoría de las hembras permanecieron alimentándose en aguas oceánicas de la cuenca argelina. Además, se registró por primera vez la reemigración de esta especie para nidificar de nuevo en España, lo que confirma que las hembras pueden mostrar un cierto grado de fidelidad al lugar de nidificación entre ciclos reproductores. La presente tesis confirma la importancia de la cuenca argelina para las tortugas bobas del Mediterráneo occidental, en particular para los juveniles y adultos. Otras zonas identificadas como importantes son el sur del mar Balear, el mar de Alborán, el canal de Sicilia, el noreste de Túnez, las aguas de Malta, el mar Tirreno y el mar Jónico, según la etapa vital. El análisis de la distribución espacial de la tortuga boba también ha revelado que la distribución y cobertura actuales de las AMPs mediterráneas no contribuyen a alcanzar los objetivos de conservación para esta especie. Los resultados obtenidos en esta tesis contribuyen al conocimiento de la supervivencia y uso espacial de la tortuga boba a lo largo de su ciclo vital en el mar Mediterráneo. / [CA] Les tortugues babaues són organismes de gran mobilitat que ocupen hàbitats extensos i diversos, la qual cosa les exposa a diverses amenaces que poden afectar negativament la persistència de les seues poblacions. Delinear mesures prioritàries de conservació per a aquesta espècie és tot un repte degut a l'escassetat del coneixement integrat sobre la seua supervivència, ús d'hàbitat i exposició relativa a amenaces, especialment durant les primeres etapes del seu cicle vital. En la conca occidental de la mar Mediterrània això adquireix major rellevància si es contextualitza en el procés de colonització que està tenint lloc en la zona durant l'última dècada. S'ha registrat un augment en el nombre de nius i femelles nidificants, per a la protecció de les quals s'han pres mesures de gestió com la reubicació de nius i la inclusió de nounats en programes de "*head-*starting". Aquesta conjuntura ha oferit una oportunitat única per a incrementar el coneixement sobre la supervivència, dispersió i ús d'hàbitat de femelles nidificants i post-nounats de tortuga babaua. Cap investigació prèvia ha realitzat un seguiment per satèl·lit de femelles nidificants en el Mediterrani occidental, ni de post-nounats mediterranis amb grandària inferior a 35 cm. La finalitat d'aquesta tesi és abordar les llacunes de coneixement esmentades i aportar eines per a millorar les estratègies de planificació marina dirigides a la conservació de la tortuga babaua al Mediterrani. Els principals objectius van ser: i) proporcionar les primeres estimacions empíriques de supervivència de post-nounats, *ii) dilucidar les rutes de dispersió i l'ús d'hàbitat en les diferents etapes del cicle vital, *iii) identificar àrees rellevants per a la seua protecció, *iv) avaluar l'eficàcia de les actuals àrees marines protegides (*AMPs) per a la conservació de la tortuga babaua, i *v) proposar mesures de conservació basades en l'anàlisi espacial. Per a això, es van analitzar les trajectòries de 117 tortugues seguides via satèl·lit entre 2003 i 2022. Aquestes dades inclouen les primeres trajectòries de femelles nidificants a Espanya i de post-nounats mediterranis, que s'han publicat en un repositori. A més, es va realitzar la primera avaluació de l'ús d'hàbitat i de *AMPs per tortugues babaues marcades en el Mediterrani occidental, al llarg del seu cicle vital. Els resultats d'aquesta tesi mostren, per primera vegada, la capacitat de supervivència i dispersió, així com ús d'hàbitat de post-nounats de tortuga babaua al Mediterrani. Les mars Jònic i de Llevant es van identificar com a zones potencials de desenvolupament de post-nounats. D'altra banda, les femelles van mostrar dos comportaments diferents durant el període de *inter-implantació: i) fidelitat a la zona de nidificació, o *ii) comportament exploratori de nidificació. Durant l'etapa no reproductora, la majoria de les femelles van romandre alimentant-se en aigües oceàniques de la conca algeriana. A més, es va registrar per primera vegada la reemigració d'aquesta espècie per a nidificar de nou a Espanya, la qual cosa confirma que les femelles poden mostrar un cert grau de fidelitat al lloc de nidificació entre cicles reproductors. La present tesi confirma la importància de la conca algeriana per a les tortugues babaues del Mediterrani occidental, en particular per als juvenils i adults. Altres zones identificades com a importants són el sud de la mar Balear, la mar d'Alborán, el canal de Sicília, el nord-est de Tunísia, les aigües de Malta, la mar Tirrena i la mar Jònica, segons l'etapa vital. L'anàlisi de la distribució espacial de la tortuga babaua també ha revelat que la distribució i cobertura actuals de les *AMPs mediterrànies no contribueixen a aconseguir els objectius de conservació per a aquesta espècie. Els resultats obtinguts en aquesta tesi contribueixen al coneixement de la supervivència i ús espacial de la tortuga babaua al llarg del seu cicle vital en la mar Mediterrània. / [EN] Loggerhead sea turtles (Caretta caretta) are highly mobile organisms, which occupy diverse habitats that often span large distances, exposing them to threats that can negatively impact the ability of their populations to persist. Delineating conservation priority measures for this species is challenging since integrated knowledge on survival, habitat use and the relative exposure to threats remains scarce, especially during the early life stages. In the western Mediterranean basin this is particularly relevant when considering the current colonization process taking place in the area within the last decade. During recent years, records on nesting females and clutches have increased and, when possible, management measures such as nest relocation and head-starting programs have been undertaken. This offers a unique opportunity to fill in the knowledge gaps on survival, dispersal routes and habitat use of loggerhead nesting females and post-hatchlings. No research prior to this thesis has satellite-tracked nesting and post-nesting females in the western Mediterranean, nor Mediterranean post-hatchlings smaller than 35 cm. The present thesis aims to address the aforementioned knowledge gaps and enhance marine planning strategies for loggerhead conservation in the Mediterranean Sea. The main objectives were: i) to provide the first empirical survival estimates for head-started post-hatchlings, ii) to elucidate the dispersal routes and habitat use at different life stages, iii) to identify areas that should be considered for protection, iv) to assess the effectiveness of current marine protected areas (MPAs) and other protection measures for loggerhead conservation, and v) to propose spatial conservation measures based on research findings. To achieve these objectives, trajectories of 117 turtles satellite-tracked between 2003 and 2022 were analyzed. This dataset includes the first tracking data of nesting and post-nesting females in Spain and Mediterranean post-hatchlings, which have been made publicly available in a data repository. Moreover, the first assessment of habitat use and the use of MPAs for loggerhead sea turtles tracked from western Mediterranean thorough their life cycle was conducted. The outcomes of this thesis revealed, for the first time, the capability of survival and dispersal, as well as the habitat use of post-hatchlings in the Mediterranean Sea. The Ionian and Levant Seas were identified as potential developmental areas for post-hatchlings. Nesting females exhibited three different behaviours during the inter-nesting period: i) some degree of fidelity to a nesting area, ii) an exploratory nesting behavior, or iii) movement towards oceanic waters after tagging. In addition, the first-time remigration of this species to nest in Spain was recorded, confirming that females show some degree of nest site fidelity between breeding cycles. During the non-breeding stage, females remained in most cases foraging in oceanic waters of the Algerian basin. The present thesis has validated the significance of the Algerian basin for loggerhead sea turtles satellite-tracked from the western Mediterranean, particularly for juveniles and adults. In addition, other important areas inhabited by the loggerhead turtles were identified in the southern Balearic Sea, the Alboran Sea, the Sicilian Channel, the Northeast Tunisia, Maltese waters, the Tyrrhenian Sea and the Ionian Sea, depending on the life stage. The analysis of the spatial distribution of the loggerhead sea turtle has also revealed that the current distribution and coverage of Mediterranean MPAs are not effective in achieving this species' conservation goals. Outcomes from the present thesis significantly enhance our understanding of the survival and spatial use of the loggerhead sea turtle throughout its life cycle in the Mediterranean Sea. / I would like to express my gratitude to the Ministry of Education, Culture and Sports of Spain for the opportunity to develop this thesis under the predoctoral training grant [FPU15/01823], MEC, Spain. Satellite tagging conducted in the Valencia region was supported by the “Servicio de Vida Silvestre de la Generalitat Valenciana”. Additionally, I am thankful for the support received from the contracts: “Seguimiento mediante marcaje satelital de 10 crías de tortuga boba (Caretta caretta) nacidas en 2016 en el litoral valenciano" and "Marcaje satelital y seguimiento de hembras reproductoras de tortuga boba (Caretta caretta) ante episodios de anidación en las playas del Mediterráneo peninsular y Baleares en 2019", both contracts in the framework of the project "LIFE IP-PAF INTEMARES [LIFE15 IPE ES 012] "Gestión integrada, innovadora y participativa de la Red Natura 2000 en el medio marino español”, coordinated by the Biodiversity Foundation. Similarly, I would like to mention and thank the support received from the contract "Marcaje satelital y seguimiento de hembras reproductoras de tortuga boba (Caretta caretta) ante eventos de anidación en el litoral español" funded by the "Ministerio de Transición Ecológica y Reto Demográfico", Spain. The results of Chapter 6 "Marine protected areas and loggerhead turtles in the Mediterranean Sea" are also part of action C2.2 of the project LIFE IP INTEMARES. / Abalo Morla, S. (2023). Habitat use and distribution of the loggerhead sea turtle (Caretta caretta) in the Mediterranean Sea: Implications for marine planning strategies [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/199233 / Compendio

Áreas Marinas Protegidas (AMPs)

Caretta caretta

Tortuga boba

Loggerhead sea turtle

Habitat use

Dispersal

Survival

Post-hatchlings

Juveniles

Nesting females

Satellite-tracking

Habitat suitability

Mediterranean Sea

Inter-nesting

Post-nesting

Head-starting

Marine conservation

Spatial distribution

Breeding

Nesting events

Conservation measures

Uso de hábitat

Dispersión

Supervivencia

Post-neonatos

Hembras nidificantes

Seguimiento satélite

Idoneidad de hábitat

Mar Mediterráneo

Inter-anidación

Post-anidación

Conservación marina

Distribución espacial

Nidificación

Eventos de anidación

Medidas de conservación

Marine Protected Areas (MPAs)

ZOOLOGIA