Structure of the Loggerhead Turtle Assemblage in Okinawan Waters Estimated from Variation in Body Size and Blood Profile
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Abstract:
In order to estimate the structure of the loggerhead turtle assemblage in Okinawan waters, we measured the straight carapace length (SCL) and sexed 35 loggerhead turtles captured by set net between 2007 and 2011. Sexual maturity in females was determined on the basis of plasma triglyceride, cholesterol, total protein, and calcium concentrations. Of the 35 captured loggerhead turtles, 18 turtles were identified as males based on their elongated tails, while 16 turtles were identified as females in the process of vitellogenesis based on highly elevated blood plasma levels. Only one turtle with low plasma measurements was of indeterminate sex. We suggest that blood plasma measurements may serve as a useful indicator of female maturity. SCL means were 865 ± 48 mm (mean ± SD) for all turtles, 865±47 mm for males, and 871±52 mm for females; the turtle of unknown gender had an SCL of 791 mm. The loggerhead turtle assemblage in Okinawan waters was found to be larger in SCL and higher in the frequency of mature individuals than those in conspecific assemblages in other areas of Japanese waters so far studied. We suggest that the loggerhead turtles migrating to Okinawan waters are primarily in active reproductive states in preparation for mating and nesting.Keywords:
Sea turtle
Sexual maturity
Avian clutch size
Nesting season
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Two new fragments of a turtle carapace and a turtle plastron (hypoplastron) have been recovered from glacially transported boulders of Danian and Selandian age. The hypoplastron is identified as Ctenochelys cf. stenoporus, while the carapace fragment can only be assigned to the family Cheloniidae indet. Both specimens show evidence of predation by crocodilians in the form of rows of circular pits in the bones, and one specimen has rows of elongated scrape traces interpreted as scavenging by sharks. Together with the other, rare finds from the middle Danian of the Faxe Quarry and from late Danian deposits in the Copenhagen area, these new finds add important new knowledge to the sparse fossil record of turtles in Scandinavia, as well as evidence that the genus Ctenochelys survived across the K/Pg Boundary.
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Nesting (process)
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Frequency of and Temporal Trends in Shell Anomalies in a Turtle Community in a Northern Indiana Lake
We used a 36-yr study of a turtle community in a northern Indiana lake to examine shell anomalies and temporal changes in their frequency in 3 species. The overall frequency of shell anomalies was 17% in painted turtles (Chrysemys picta), 11% in northern map turtles (Graptemys geographica), and 18% in red-eared sliders (Trachemys scripta elegans), and there were more anomalies on the carapace than on the plastron in 2 species (C. picta and G. geographica). The probability that an individual would have a shell anomaly was affected negatively by year of first capture and estimated year of hatching in C. picta and by carapace length at first capture in C. picta and T. s. elegans, although the relationships were weak (all r2 ≤ 0.15). Thus, there was no suggestion of a systematic change in shell anomalies over time in the Dewart Lake turtle community.
Painted turtle
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Body plan
Lineage (genetic)
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Context It is well established that artificial light can disrupt the sea-finding ability of sea turtle hatchlings, and some manufactures are now marketing ‘turtle-friendly’ lights that are supposed to be minimally disruptive to this sea-finding behaviour. However, there have been no studies that have tested whether ‘turtle-friendly’ lights are benign to hatchling sea turtle sea-finding ability. Aims We tested two different types of ‘turtle-friendly’ lights (LED amber-light peak intensity 620 nm and LED red-light peak intensity 640 nm) to see whether they are disruptive to the sea-finding ability of eastern-coast Australian loggerhead turtle hatchlings. Methods Using standard circular-arena experiments, we assessed the directional preference of newly emerged loggerhead turtle hatchlings from the Woongarra Coast of Queensland, Australia, during different moon phases without artificial lighting and in the presence of ‘turtle-friendly’ lights. Key results Contrary to expectations, sea-finding ability of hatchlings was disrupted by the amber lights, particularly in the absence of a moon. The less intense red lights were less disruptive to hatchlings; however, misorientation and disorientation events still occurred when lights were within 4 m of hatchlings. The disruptive impact on sea-finding ability increased with the cumulative impact of multiple lights increasing light intensity. Conclusions The ‘turtle-friendly’ lights we used disrupted the sea-finding ability of eastern-coast Australian loggerhead turtle hatchlings, with the most pronounced disruption occurring under moonless conditions. Implications The use of amber and red LED lights adjacent to the nesting beaches of loggerhead sea turtles should be managed because this lighting has the potential to disrupt the sea-finding ability of sea turtle hatchlings.
Hatchling
Sea turtle
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Taphonomic studies of extant turtles are useful for interpreting the taphonomy of fossil turtles. In order to provide modern comparators for fossil turtle sites, we have characterized two modern turtle (Chrysemys picta) deathsites; one in northwestern Nebraska and one in southwestern South Dakota. During these studies we characterized carapace position (up or down), presence or absence of non-shell elements, relative spatial position of the turtles and presence of shell disturbances (lesions). In the Trunk Butte site (Nebraska), six turtles were in carapace up position, five were in carapace down and one was not determinable. In addition, seven of those turtles contained some non-shell elements and five had indeterminable non-shell element status. At the Buffalo Gap site (South Dakota), four were carapace down, two were carapace up and three were not determinable for that character. Six of these had non-shell elements associated with them and three had no non-shell elements. The occurrence of turtles in the carapace down position suggests either the presence of medium to large scavengers able to overturn a turtle or that the turtle died while in the water and overturned while sinking. The spatial distributions of turtles in the two modern sites were also plotted and compared to that of two Whitney (Brule Formation, White River Group) and one Chadron (White River Group) site to address the hypothesis that the fossil assemblages were associated with small ponds. The results suggest that the fossil turtle sites were not the result of death events associated with small ponds, nullifying that hypothesis.
Taphonomy
Tortoise
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