2020
DOI: 10.1111/ddi.13203
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Evolving thermal thresholds explain the distribution of temperature sex reversal in an Australian dragon lizard

Abstract: Aim Species with temperature‐dependent sex determination (TSD) are particularly vulnerable to climate change because a resultant skew in population sex ratio can have severe demographic consequences and increase vulnerability to local extinction. The Australian central bearded dragon (Pogona vitticeps) has a thermosensitive ZZ male/ZW female system of genetic sex determination (GSD). High incubation temperatures cause reversal of the ZZ genotype to a viable female phenotype. Nest temperatures in the wild are p… Show more

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Cited by 29 publications
(53 citation statements)
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“…Notably, all 28 animals with the mismatch were phenotypic females and they were recorded only in the south-western part of the Sex Dev 2021;15:272-281 DOI: 10.1159/000514195 species range. While this clustered distribution is consistent with non-random occurrence of sex reversals in certain environmental conditions at the edge of the species distribution as interpreted by Castelli et al [2020], the spatial clustering can also reflect the geographic spread of a mutation, recombination, or other rearrangement concerning the region of the W chromosome containing the otherwise female-specific marker used for identification of the individuals with the mismatch. The current study discloses that the given marker might not be as reliable as thought for identification of sex-reversed individuals in the field and that the causes of the mismatch between the phenotypic and genotypic sex should be investigated more rigorously.…”
Section: Discussionsupporting
confidence: 71%
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“…Notably, all 28 animals with the mismatch were phenotypic females and they were recorded only in the south-western part of the Sex Dev 2021;15:272-281 DOI: 10.1159/000514195 species range. While this clustered distribution is consistent with non-random occurrence of sex reversals in certain environmental conditions at the edge of the species distribution as interpreted by Castelli et al [2020], the spatial clustering can also reflect the geographic spread of a mutation, recombination, or other rearrangement concerning the region of the W chromosome containing the otherwise female-specific marker used for identification of the individuals with the mismatch. The current study discloses that the given marker might not be as reliable as thought for identification of sex-reversed individuals in the field and that the causes of the mismatch between the phenotypic and genotypic sex should be investigated more rigorously.…”
Section: Discussionsupporting
confidence: 71%
“…Sex-reversed animals identified by molecular and cytogenetic markers were reported in the bearded dragon also in the field, and their slightly higher incidence in recent years was put into connection with global warming [Holleley et al, 2015]. In the recent study [Castelli et al, 2020], the mismatch between phenotypic and genotypic sex was assigned by the same molecular marker [Quinn et al, 2010;Holleley et al, 2015;Ehl et al, 2017] (all these studies used the same contig as the sex-specific marker although they differed in the primers used for amplifications of fragments from the same W-linked regions) and was found in 5% out of 534 examined individuals of P. vitticeps covering the whole species range. Notably, all 28 animals with the mismatch were phenotypic females and they were recorded only in the south-western part of the Sex Dev 2021;15:272-281 DOI: 10.1159/000514195 species range.…”
Section: Discussionmentioning
confidence: 97%
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“…These differences in thresholds can subsequently shift an individual embryo's propensity for developing as one sex or the other at a given temperature, which can create sex ratio biases, such as those we observed in A. muricatus [42][43][44][45]. We argue that such genetic variation in thermal thresholds likely exists alongside other genotypic determinants of sex in A. muricatus, so explaining the variation observed in both sex ratios and ovotestes frequency at different incubation temperatures [46]. This is akin to observations in close relative, P. vitticeps, where rates of sex reversal increase as temperature increases, though some Table 1.…”
Section: Discussionmentioning
confidence: 72%