Transport from the wild rapidly alters the diversity and composition of skin microbial communities and antifungal taxa in spring peeper frogs

Lauren P. Kane, William G. Van Bonn, F. Oliaro, Christian F. Edwardson, Malissa Smith, Lee J. Pinnell
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Abstract

Amphibians are routinely collected from the wild and added into managed care and public display facilities; however, there is a gap in understanding how these practices might alter the diversity and composition of skin microbial communities on these animals. The aim of this study was to evaluate and compare skin microbial communities of spring peeper frogs (Pseudacris crucifer) from acquisition in the wild through the end of their quarantine period and identify microbial taxa with antifungal properties. From an original group of seventy-six frogs, cohorts of ten were swabbed when acquired in the wild, upon transport from the wild, and swabbed throughout a 9-week quarantine period while under managed care. An immediate loss of microbial richness and diversity was evident upon transfer of the frogs from their original environment and continued throughout subsequent sampling time-points during quarantine. Importantly, antifungal taxa comprised significantly more of the overall skin community after the frogs were moved from the wild, largely due to members of the family Moraxellaceae. Overall, our findings demonstrate that amphibian skin microbiome changes immediately on removal from the wild, and that these changes persist throughout quarantine while being housed under managed care. This may play a pivotal role in the development of dermatological disease and have implications in the health and immune function of amphibians.
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从野外迁移会迅速改变春蛙皮肤微生物群落和抗真菌类群的多样性和组成
人们经常从野外收集两栖动物,并将其放入管理养护和公共展示设施中;然而,人们对这些做法如何改变这些动物皮肤微生物群落的多样性和组成还缺乏了解。本研究的目的是评估和比较从野外采集到检疫期结束的春窥蛙皮肤微生物群落,并鉴定具有抗真菌特性的微生物类群。在最初的七十六只青蛙中,每十只青蛙在野外获得时、从野外运出时以及在为期九周的检疫期间接受了拭抹。蛙类从其原始环境转移后,微生物的丰富性和多样性立即明显下降,并在检疫期间的后续采样时间点持续下降。重要的是,蛙类从野外转移后,抗真菌类群在整个皮肤群落中的占比明显增加,这主要归功于毛蕊花科(Moraxellaceae)的成员。总之,我们的研究结果表明,两栖动物的皮肤微生物组在从野外移出后会立即发生变化,而且这些变化会在整个检疫期间持续存在。这可能在皮肤病的发展过程中起到关键作用,并对两栖动物的健康和免疫功能产生影响。
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