First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA

Determining sex ratios of endangered populations is important for wildlife management, particularly species subject to sex-specific threats or that exhibit temperature-dependent sex determination. Sea turtle sex is determined by incubation temperature and individuals lack external sex-based traits u...

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Autores principales: Allen, Camryn D., Robbins, Michelle N., Eguchi, Tomoharu, Owens, David W., Meylan, Anne B., Meylan, Peter A., Kellar, Nicholas M., Schwenter, Jeffrey A., Nollens, Hendrik H., LeRoux, Robin A., Dutton, Peter H., Seminoff, Jeffrey A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4605721/
https://www.ncbi.nlm.nih.gov/pubmed/26465620
http://dx.doi.org/10.1371/journal.pone.0138861
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author Allen, Camryn D.
Robbins, Michelle N.
Eguchi, Tomoharu
Owens, David W.
Meylan, Anne B.
Meylan, Peter A.
Kellar, Nicholas M.
Schwenter, Jeffrey A.
Nollens, Hendrik H.
LeRoux, Robin A.
Dutton, Peter H.
Seminoff, Jeffrey A.
author_facet Allen, Camryn D.
Robbins, Michelle N.
Eguchi, Tomoharu
Owens, David W.
Meylan, Anne B.
Meylan, Peter A.
Kellar, Nicholas M.
Schwenter, Jeffrey A.
Nollens, Hendrik H.
LeRoux, Robin A.
Dutton, Peter H.
Seminoff, Jeffrey A.
author_sort Allen, Camryn D.
collection PubMed
description Determining sex ratios of endangered populations is important for wildlife management, particularly species subject to sex-specific threats or that exhibit temperature-dependent sex determination. Sea turtle sex is determined by incubation temperature and individuals lack external sex-based traits until sexual maturity. Previous research utilized serum/plasma testosterone radioimmunoassays (RIA) to determine sex in immature/juvenile sea turtles. However, there has been a growing application of enzyme-linked immunosorbent assay (ELISA) for wildlife endocrinology studies, but no study on sea turtles has compared the results of ELISA and RIA. This study provides the first sex ratio for a threatened East Pacific green sea turtle (Chelonia mydas) foraging aggregation, a critical step for future management of this species. Here, we validate a testosterone ELISA and compare results between RIA and ELISA of duplicate samples. The ELISA demonstrated excellent correspondence with the RIA for providing testosterone concentrations for sex determination. Neither assay proved reliable for predicting the sex of reproductively active females with increased testosterone production. We then applied ELISA to examine the sex ratio of 69 green turtles foraging in San Diego Bay, California. Of 45 immature turtles sampled, sex could not be determined for three turtles because testosterone concentrations fell between the ranges for either sex (females: 4.1–113.1 pg/mL, males: 198.4–2,613.0 pg/mL) and these turtles were not subsequently recaptured to enable sex determination; using a Bayesian model to predict probabilities of turtle sex we predicted all three ‘unknowns’ were female (> 0.86). Additionally, the model assigned all turtles with their correct sex (if determined at recapture) with 100% accuracy. Results indicated a female bias (2.83F:1M) among all turtles in the aggregation; when focusing only on putative immature turtles the sex ratio was 3.5F:1M. With appropriate validation, ELISA sexing could be applied to other sea turtle species, and serve as a crucial conservation tool.
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spelling pubmed-46057212015-10-29 First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA Allen, Camryn D. Robbins, Michelle N. Eguchi, Tomoharu Owens, David W. Meylan, Anne B. Meylan, Peter A. Kellar, Nicholas M. Schwenter, Jeffrey A. Nollens, Hendrik H. LeRoux, Robin A. Dutton, Peter H. Seminoff, Jeffrey A. PLoS One Research Article Determining sex ratios of endangered populations is important for wildlife management, particularly species subject to sex-specific threats or that exhibit temperature-dependent sex determination. Sea turtle sex is determined by incubation temperature and individuals lack external sex-based traits until sexual maturity. Previous research utilized serum/plasma testosterone radioimmunoassays (RIA) to determine sex in immature/juvenile sea turtles. However, there has been a growing application of enzyme-linked immunosorbent assay (ELISA) for wildlife endocrinology studies, but no study on sea turtles has compared the results of ELISA and RIA. This study provides the first sex ratio for a threatened East Pacific green sea turtle (Chelonia mydas) foraging aggregation, a critical step for future management of this species. Here, we validate a testosterone ELISA and compare results between RIA and ELISA of duplicate samples. The ELISA demonstrated excellent correspondence with the RIA for providing testosterone concentrations for sex determination. Neither assay proved reliable for predicting the sex of reproductively active females with increased testosterone production. We then applied ELISA to examine the sex ratio of 69 green turtles foraging in San Diego Bay, California. Of 45 immature turtles sampled, sex could not be determined for three turtles because testosterone concentrations fell between the ranges for either sex (females: 4.1–113.1 pg/mL, males: 198.4–2,613.0 pg/mL) and these turtles were not subsequently recaptured to enable sex determination; using a Bayesian model to predict probabilities of turtle sex we predicted all three ‘unknowns’ were female (> 0.86). Additionally, the model assigned all turtles with their correct sex (if determined at recapture) with 100% accuracy. Results indicated a female bias (2.83F:1M) among all turtles in the aggregation; when focusing only on putative immature turtles the sex ratio was 3.5F:1M. With appropriate validation, ELISA sexing could be applied to other sea turtle species, and serve as a crucial conservation tool. Public Library of Science 2015-10-14 /pmc/articles/PMC4605721/ /pubmed/26465620 http://dx.doi.org/10.1371/journal.pone.0138861 Text en https://creativecommons.org/publicdomain/zero/1.0/ This is an open-access article distributed under the terms of the Creative Commons Public Domain declaration, which stipulates that, once placed in the public domain, this work may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose.
spellingShingle Research Article
Allen, Camryn D.
Robbins, Michelle N.
Eguchi, Tomoharu
Owens, David W.
Meylan, Anne B.
Meylan, Peter A.
Kellar, Nicholas M.
Schwenter, Jeffrey A.
Nollens, Hendrik H.
LeRoux, Robin A.
Dutton, Peter H.
Seminoff, Jeffrey A.
First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA
title First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA
title_full First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA
title_fullStr First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA
title_full_unstemmed First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA
title_short First Assessment of the Sex Ratio for an East Pacific Green Sea Turtle Foraging Aggregation: Validation and Application of a Testosterone ELISA
title_sort first assessment of the sex ratio for an east pacific green sea turtle foraging aggregation: validation and application of a testosterone elisa
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4605721/
https://www.ncbi.nlm.nih.gov/pubmed/26465620
http://dx.doi.org/10.1371/journal.pone.0138861
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