A comparison of body proportions in juvenile sea turtles: how shape may optimize survival in a vulnerable life stage

Unknown Date

Marine turtles produce many offspring which offsets the high mortality experienced by turtles during early development. Juvenile mortality might be reduced by evolving effective behavioral as well as morphological anti-predator defenses. Body proportions of three species (Caretta caretta, Chelonia mydas, Dermochelys coriacea) of turtles were measured in the first fourteen weeks of development to examine how growth may mitigate predation by gape-limited predators. Growth was categorized as isometric if shape did not change during development or allometric if body shape did change. All three species showed allometric growth in carapace width; however it was less pronounced in the larger D. coriacea turtles. Allometric growth in carapace width decreased as all three species grew in size. When high predation occurs in early development, many species will favor rapid growth into a size refuge. Juvenile sea turtles may optimize their survival by growing allometrically when predation risk is the greatest. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2014. / FAU Electronic Theses and Dissertations Collection

Predation (Biology)

Sea turtles -- Growth

Sea turtles -- Mortality

Nesting behavior, growth rates, and size distribution of loggerhead sea turtles (Caretta caretta) on Blackbeard Island National Wildlife Refuge an evaluation of recruitment in Georgia /

Cason, Heather L.

January 2009

Thesis (M.S.)--Georgia Southern University, 2009. / "A thesis submitted to the Graduate Faculty of Georgia Southern University in partial fulfillment of the requirements for the degree Master of Science." Directed by David C. Rostal. ETD. Includes bibliographical references (p. 47-49)

Effects Of A Shore Protection Project On Loggerhead And Green Turtle Nesting Activity And Reproduction In Brevard County, Florida

Brock, Kelly

01 January 2005

Marine turtle reproductive success is strongly correlated with the stability and quality of the nesting environment. Because females show fidelity to key nesting beaches, the management and physical characteristics of these beaches directly affect future generations of marine turtles and may be essential for the recovery of these threatened and endangered species. The impacts of beach restoration on loggerhead turtles (Caretta caretta) and on green turtles (Chelonia mydas) were investigated. Previous studies concerning beach nourishment projects have focused on loggerhead turtles. I compared data between nourished and non-nourished areas and between loggerhead and green turtles. I found, at one season post-nourishment, negative effects on nesting success and no significant effect on reproductive success for both loggerheads and established the same relationships with green turtles. Physical attributes of the fill sand, which did not facilitate acute scarp formation or severe compaction, did not physically impede turtles in their attempts to nest. Instead, the decrease in nesting success was attributed to an absence of abiotic and or biotic factors that cue nesting behavior. The increase in loggerhead nesting success rates during the second season post-nourishment was attributed to the equilibration process of the seaward crest of the berm. After the beach was restored, both species of turtles placed nests significantly farther from the water in the nourished area than in the non-nourished area. Green turtles nested on or near the dune and loggerheads nested on the seaward crest of the berm. The tendency of loggerheads to nest closer to the water resulted in more loggerhead than green turtle nests being "washed out" by erosion during the equilibration process. There was a significant increase in hatching success only for loggerheads when wash outs were excluded, thus illustrating the importance of nest placement and the detrimental effects of the equilibration process to the reproductive success of loggerheads. A decrease in reproductive output occurred during the first season post-nourishment. The reduction in the estimated total number of hatchlings produced (reproductive output) was a consequence of decreased nesting success lowering nest numbers. This reduction demonstrates that, regardless of similar reproductive success rates, marine turtles incurred net losses during the first season following nourishment. These results further reveal the impacts of decreased nesting success and the importance of minimizing excessive non-nesting emergences associated with beach nourishment.

restoration

loggerhead turtles

green turtles

beach nourishment

reproductive success

disorientations

nest placement

sea turtles

Biology

Some aspects of the reproductive endocrinology of the male soft-shelled turtle, Trionyx sinensis Wiegm

徐慶和, Tsui, Hing-wo.

January 1971

published_or_final_version / Zoology / Master / Master of Science

Soft-shelled turtles.

Trionyx sinensis.

Endocrinology.

Reproduction.

The adenohypophyseal cell types and their relationships to reproduction in the soft-shelled turtle, Trionyx sinensis Wiegm

Yip, Din-yan, 葉殿恩

January 1974

published_or_final_version / Zoology / Master / Master of Philosophy

Adenohypophysis.

Trionyx sinensis.

Soft-shelled turtles.

Reproduction.

Ecology of marine turtles across the eastern Mediterranean and the Middle East

Rees, Alan Frederick

January 2013

Marine turtles are wide-ranging, long-lived, iteroparous species of conservation concern. From indirect threats, such as development at their breeding grounds and negative fisheries interactions, to direct take of eggs meat and shells, they are impacted at all stages of their life-cycle by the activities of Man. A better understanding of their reproductive and spatial ecology together with knowledge of population status can inform conservation and management actions for their protection. This thesis presents a collection of chapters covering three species of marine turtle, from four countries in two regions where major knowledge gaps existed on marine turtle biology and ecology. In Oman we identify plasticity in adult loggerhead turtle (Caretta caretta) internesting behaviour combined with globally-atypical, predominantly oceanic habitat use and we raise concerns over potential bias derived from temporally-restricted tracking studies. Conversely, we show that adult female individuals of the principally oceanic olive ridley turtle (Lepidochelys olivacea) remain in neritic waters outside of the breeding season, with some local turtles unusually utilising the same location both during and after the breeding period. We also show that green turtles (Chelonia mydas) nesting on Masirah Island are long distance migrators, travelling 2000 km or more into the Red Sea. Together with our tracking data for the other species in Oman we highlight the threat that fisheries interaction, in a region with poor fisheries regulation, is likely to have on these populations. We describe the recent status of green turtle populations in Kuwait and Syria. In Kuwait nesting habitats have recently been halved through development of one of the two critical nesting areas and with the remaining nesting population estimated at no more than 5 females per year. For Syria, we describe the discovery of a regionally important nesting aggregation located south of Latakia city, with 30 individuals estimated nesting in 2004. Using satellite telemetry we identify potentially important foraging locations for individuals from both locations. Results from Syria further highlight the importance of neritic habitats off north Africa for adult turtles in the Mediterranean and results from Kuwait revealed the potential threat from the use of the unselective coastal fish traps locally known as a ‘hadra’. Lastly, in Greece we investigate the status of turtles in a neritic coastal habitat through a boat-based mark-recapture study. Combining flipper tagging, satellite telemetry and genetic research we verify that Amvrakikos Gulf hosts regionally important numbers of 3 loggerhead turtles (300 individuals identified from 67 days fieldwork) that establish distinct home ranges and maintain long-term associations to the area. A male-biased sex ratio was revealed in the area. These turtles are predominantly derived from local breeding stocks, especially from Zakynthos Island, and we hypothesise that a combination of environmental and biological factors specific to Zakynthos Island are the cause of this bias. The results presented here, generated from a range of techniques including field surveys, satellite telemetry and genetic analysis, contribute to our knowledge of the status of several under-reported or previously unknown sea turtle populations, including evidence of their spatial footprint, and demonstrate the utility in adopting a variety of methods to corroborate results on migrations and linkages at individual and population levels.

597.928

Identifying mating systems of imperiled marine turtles nesting in southern Florida through exclusion analysis to estimate the breeding sex ratio

Unknown Date

The reproductive behavior of migratory organisms is difficult to characterize as the mating behavior can be difficult to observe. For some species, one sex can be readily observable, but the other may remain hidden, confounding attempts to assess population demographics. For such species, it can be difficult to determine the sex ratio of the population. Without accurate accounts of the numbers of males and females, conservation methods may be insufficient and their performance unclear. Alternative methods of measuring sex ratios therefore must be used to estimate the number of individuals and assess breeding behavior. Here I identified breeding sex ratios (BSR) measured using paternity analysis of offspring through exclusion analysis to quantify the numbers of males contributing. Here I discuss the mating behavior of three species of marine turtle that nest in southern Florida: the loggerhead (Caretta caretta), the leatherback (Dermochelys coriacea), and the green sea turtle (Chelonia mydas) at three beaches (Boca Raton, Juno Beach, and Sanibel Island) from 2013-2017; over 400 nesting females were identified and genotyped and almost 7,000 hatchlings were collected and genotyped. Females from all three species successfully mated with more than one male in all years analyzed demonstrating multiple paternity of clutches. For loggerheads, many male genotypes were identified, suggesting that females likely mate en route to their nesting grounds, inducing a male-biased BSR. Examination of females that were sampled more than once per season (repeats), evidence of sperm storage was found for all nests and some turtles might mate in between nesting events. Leatherback females displayed a higher rate of multiple paternity than was previously published for other Caribbean nesting sites; I hypothesize that this result may be due to a mainland nesting beach effect. The leatherback BSR over all years was approximately 1:1, and one male was identified fathering than two different females’ nests (polygyny). For green turtles, multiple paternity was found and there was evidence of polygyny. Across all three species, evidence for indirect benefits of mating multiply (hatching success or larger hatchlings) was weak or not supported. Together, the four studies contribute to the overall body of reproductive behavior studies. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection

Sea turtles--Florida

Mating behavior

Sex ratio

A retrospective analysis of sea turtle nest depredation patterns at Canaveral National Seashore, Florida

Unknown Date

Nest predation can significantly reduce hatchling recruitment in sea turtle populations. This study uses 20 years of data from Canaveral National Seashore, Florida, which has pristine and altered beaches. Chi-square tests were used to determine if secondary predation events were related to the nest's primary depredation event. To determine if human beach use and nest predation are spatially or temporally linked, we ranked human beach use and examined predation frequency across all screened and marked nests (n=40,441). Lastly, I quantified nest predation risk spatially and temporally. I found that primary predation increases the chance of a nest suffering subsequent predation. Primary and multiple predation events occurred with greater frequency in limited use areas and with lowest frequency in moderate use areas. Predation risk decreased by an average of 29.5% from 2000-2008. Nests deposited midseason were 9.8% more likely to be predated than nests deposited early or late. / by Rachel Welicky. / Thesis (M.S.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web.

Predation (Biology)

Wildlife managment

Sea turtles

Sea turtles--Atlantic Coast (U.S.)

Sea turtles--Nests

Bite performance and feeding kinematics in loggerhead turtles (Caretta caretta) within the context of longline fishery interactions

Guzman, Alejandra

15 May 2009

Feeding biomechanics and foraging behavior are likely contributors to loggerhead sea turtle (Caretta caretta) bycatch in the pelagic longline fishery. To investigate these contributions, loggerhead bite performance was measured in several size classes of captive-reared juveniles, captive sub-adults and adults, as well as wild loggerheads. A kinematic study was conducted to investigate loggerhead interactions with modified longline hooks. Kinematic and behavioral variables were assessed in relation to five longline hooks to determine if loggerhead feeding behavior is modulated relative to hook type, size, and offset. The bite force study demonstrated that mean maximum post-hatchling bite force was 2.5N and mass was the best predictor of post-hatchling bite force. Mean maximum bite force of juveniles with mean straight carapace length (SCL) of 12, 31, 44, and 65 cm were 27, 152, 343, and 374 N, respectively. Sub-adult and adult mean maximum bite force was 575 N. Maximum bite force had a positive linear relationship with all head and body morphometrics (P<0.001). Carapace width was the best predictor of bite force throughout ontogeny. The kinematic study demonstrated no differences between hook treatments in all kinematic variables analyzed. The results of this study suggest loggerhead feeding behavior may be stereotypical. Only 33% of all interactions resulted in “hooking” events. “Hooking” was lowest in 16 gage circle hooks with no offset and the 18 gage circle hooks with 10°offset which may be indicative of a lower possibility of the turtle drowning. “Hooking” was highest in the 16 gage circle hooks with 10°offset. The proportion of turtles “hooked” in the mouth was significantly greater than those “hooked” in the throat (P=0.001). Sixteen gage circle hooks with 10° offset had the highest percentage of throat “hooking”, and the 18 gage circle hooks without offset resulted in the lowest percentage of throat hooking. When interacting with J hooks with a 25° offset (9 gage), turtles mostly oriented their head away from the hook offset; however, when interacting with the 16 and 18 gage circle hooks with 10° offset, turtles mostly oriented their heads toward the hook offset. These data suggest that turtles may distinguish between small and large offsets, and may modulate their feeding behavior accordingly. Alternatively, turtles may be detecting hook size or hook shape. A more thorough characterization of loggerhead bite performance and feeding kinematics will be useful when developing or modifying longline fishery gear aimed at reducing loggerhead bycatch.

sea turtles

longline

bite force

feeding kinematics

Bite performance and feeding kinematics in loggerhead turtles (Caretta caretta) within the context of longline fishery interactions

Guzman, Alejandra

15 May 2009

Feeding biomechanics and foraging behavior are likely contributors to loggerhead sea turtle (Caretta caretta) bycatch in the pelagic longline fishery. To investigate these contributions, loggerhead bite performance was measured in several size classes of captive-reared juveniles, captive sub-adults and adults, as well as wild loggerheads. A kinematic study was conducted to investigate loggerhead interactions with modified longline hooks. Kinematic and behavioral variables were assessed in relation to five longline hooks to determine if loggerhead feeding behavior is modulated relative to hook type, size, and offset. The bite force study demonstrated that mean maximum post-hatchling bite force was 2.5N and mass was the best predictor of post-hatchling bite force. Mean maximum bite force of juveniles with mean straight carapace length (SCL) of 12, 31, 44, and 65 cm were 27, 152, 343, and 374 N, respectively. Sub-adult and adult mean maximum bite force was 575 N. Maximum bite force had a positive linear relationship with all head and body morphometrics (P<0.001). Carapace width was the best predictor of bite force throughout ontogeny. The kinematic study demonstrated no differences between hook treatments in all kinematic variables analyzed. The results of this study suggest loggerhead feeding behavior may be stereotypical. Only 33% of all interactions resulted in “hooking” events. “Hooking” was lowest in 16 gage circle hooks with no offset and the 18 gage circle hooks with 10°offset which may be indicative of a lower possibility of the turtle drowning. “Hooking” was highest in the 16 gage circle hooks with 10°offset. The proportion of turtles “hooked” in the mouth was significantly greater than those “hooked” in the throat (P=0.001). Sixteen gage circle hooks with 10° offset had the highest percentage of throat “hooking”, and the 18 gage circle hooks without offset resulted in the lowest percentage of throat hooking. When interacting with J hooks with a 25° offset (9 gage), turtles mostly oriented their head away from the hook offset; however, when interacting with the 16 and 18 gage circle hooks with 10° offset, turtles mostly oriented their heads toward the hook offset. These data suggest that turtles may distinguish between small and large offsets, and may modulate their feeding behavior accordingly. Alternatively, turtles may be detecting hook size or hook shape. A more thorough characterization of loggerhead bite performance and feeding kinematics will be useful when developing or modifying longline fishery gear aimed at reducing loggerhead bycatch.

sea turtles

longline

bite force

feeding kinematics