Integrating dynamic occupancy modeling and genetics to infer the status of the imperiled flattened musk turtle

Understanding changes in biodiversity at the levels of species and genes is imperative for effective conservation management. Here, we present a study that uses both dynamic occupancy modeling and mtDNA genetic analyses to quantify hypothesized population extinction and genetic introgression in the...

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Veröffentlicht in:	Biological conservation 2015-12, Vol.192, p.294-303
Hauptverfasser:	Scott, Peter A., Rissler, Leslie J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Dynamic occupancy modeling Dynamics Extinction Flattened musk turtle Flattening Genetics Introgression Management mtDNA Musk Sternotherus depressus Turtles Wildlife conservation
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creator	Scott, Peter A. Rissler, Leslie J.
description	Understanding changes in biodiversity at the levels of species and genes is imperative for effective conservation management. Here, we present a study that uses both dynamic occupancy modeling and mtDNA genetic analyses to quantify hypothesized population extinction and genetic introgression in the morphologically unique and federally threatened flattened musk turtle, Sternotherus depressus, endemic to rocky creeks in north-central Alabama, USA. Incorporating historic surveys in dynamic occupancy modeling shows that the flattened musk turtle has been extirpated from 32–56% of its historically occupied distribution. We find strong support for unidirectional mtDNA introgression from a closely related species into the flattened musk turtle. Additionally flattened musk turtles with allospecific mtDNA have an intermediate morphology (level of carapace depression) when compared to pure forms suggesting overall genomic hybridization that may have negative fitness effects for the species. Overall, this research provides a necessary quantitative evaluation of both local extinction and hybridization in the flattened musk turtle and shows that both demographics and genetics are essential for effective management of the species. •The flattened musk turtle is extirpated from 32–56% of its historic distribution.•Dynamic occupancy modeling with historic data shows recent localized extinction.•Introgression to the flattened musk turtle is supported by mtDNA and morphology.•We provide an updated status for the imperiled flattened musk turtle.
doi_str_mv	10.1016/j.biocon.2015.10.004
format	Article
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Here, we present a study that uses both dynamic occupancy modeling and mtDNA genetic analyses to quantify hypothesized population extinction and genetic introgression in the morphologically unique and federally threatened flattened musk turtle, Sternotherus depressus, endemic to rocky creeks in north-central Alabama, USA. Incorporating historic surveys in dynamic occupancy modeling shows that the flattened musk turtle has been extirpated from 32–56% of its historically occupied distribution. We find strong support for unidirectional mtDNA introgression from a closely related species into the flattened musk turtle. Additionally flattened musk turtles with allospecific mtDNA have an intermediate morphology (level of carapace depression) when compared to pure forms suggesting overall genomic hybridization that may have negative fitness effects for the species. 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subjects	Dynamic occupancy modeling Dynamics Extinction Flattened musk turtle Flattening Genetics Introgression Management mtDNA Musk Sternotherus depressus Turtles Wildlife conservation
title	Integrating dynamic occupancy modeling and genetics to infer the status of the imperiled flattened musk turtle
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