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Micro-environment of olive ridley turtle nests deposited during an aggregated nesting event

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dc.contributor.author Clusella Trullas, Susana
dc.contributor.author Paladino, F.V.
dc.date.accessioned 2016-06-09T21:06:14Z
dc.date.available 2016-06-09T21:06:14Z
dc.date.issued 2007
dc.identifier.citation Clusella Trullas, S., Paladino, F.V. (2007). Micro-environment of olive ridley turtle nests deposited during an aggregated nesting event. Journal of Zoology, 272, 367–376. doi:10.1111/j.1469-7998.2006.00277.x es_CR
dc.identifier.issn 0952-8369
dc.identifier.uri http://hdl.handle.net/11606/232
dc.description.abstract The hatching success of nests deposited by olive ridley turtles Lepidochelys olivacea during aggregated nesting events (‘arribada’) is typically low and the underlying mechanisms are not clear. In this study, temperature, oxygen and carbon dioxide partial pressures (PO2 and PCO2) of in situ nests as well as nests relocated into a hatchery with clean sand were monitored throughout incubation. Hatching success of hatchery nests was significantly higher than in situ nests (83.1 vs. 21.6%) and mainly resulted from higher mortality of early-stage embryos. During the first half of incubation, temperature and PCO2 were higher (by 0.61C and 0.7kPa, respectively) and PO2 was lower (by 1.1kPa) within in situ relative to hatchery nests. Because embryo metabolism does not interfere significantly with nest gas contents during the first half of incubation, these results suggest that the greater content of organic matter and/or microorganisms in the sand surrounding in situ nests had an effect on nest gas contents. As PO2 and PCO2 differences were relatively small, microbial activity (such as fungal and bacterial infection) may have caused the early embryo mortality found in situ. Moreover, our results suggest that during the second half of incubation, neither PO2 nor PCO2 reached threshold levels that resulted in the death of embryos or hatchlings. Overall, this study showed a clear benefit of using clean sand to increase hatchling production in arribada beaches and highlights the importance of further investigating the relationship between nest micro-environment, sand microbial activity and embryo development under natural conditions during these unique nesting events. es_CR
dc.language.iso en es_CR
dc.publisher The Zoological Society of London es_CR
dc.subject marine-reptile es_CR
dc.subject population dynamics es_CR
dc.subject sand quality es_CR
dc.subject conservation es_CR
dc.subject solitary nesting es_CR
dc.subject respiratory metabolism es_CR
dc.title Micro-environment of olive ridley turtle nests deposited during an aggregated nesting event es_CR
dc.type Article es_CR


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    Artículos de Acceso Abierto y Manuscritos de Investigadores entregados a ACG

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