Effects of parental care on skin microbial community composition in poison frogs

Marie-Therese Fischer, Katherine Shaohua Xue, Elizabeth Kate Costello, Mai Dvorak, Anna Robaczewska, Gaelle Raboisson, Stephanie Caty, David A. Relman, Lauren A O'Connell
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Abstract

Parent-offspring interactions constitute the first contact of many newborns with their environment, priming community assembly of microbes through priority effects. Early exposure to microbes can have lasting influences on the assembly and functionality of the host's microbiota, leaving a life-long imprint on host health and disease. Studies of the role played by parental care in microbial acquisition have primarily focused on humans and hosts with agricultural relevance. Anuran vertebrates offer the opportunity to examine microbial community composition across life stages as a function of parental investment. In this study, we investigate vertical transmission of microbiota during parental care in a poison frog (Family Dendrobatidae), where fathers transport their offspring piggyback-style from terrestrial clutches to aquatic nurseries. We found that substantial bacterial colonization of the embryo begins after hatching from the vitelline envelope, emphasizing its potential role as microbial barrier during early development. Using a laboratory cross-foster experiment, we demonstrated that poison frogs performing tadpole transport serve as a source of skin microbes for tadpoles on their back. To study how transport impacts the microbial skin communities of tadpoles in an ecologically relevant setting, we sampled frogs and tadpoles of sympatric species that do or do not exhibit tadpole transport in their natural habitat. We found more diverse microbial communities associated with tadpoles of transporting species compared to a non-transporting frog. However, we detected no difference in the degree of similarity between adult and tadpole skin microbiotas, based on whether the frog species exhibits transporting behavior or not. Using a field experiment, we confirmed that tadpole transport can result in the persistent colonization of tadpoles by isolated microbial taxa associated with the caregiver's skin, albeit often at low abundance. This is the first study to describe vertical transmission of skin microbes in anuran amphibians, showing that offspring transport may serve as a mechanism for transmission of parental skin microbes. Overall, these findings provide a foundation for further research on how vertical transmission in this order impacts host-associated microbiota and physiology.
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亲代照料对毒蛙皮肤微生物群落组成的影响
父母与后代的互动是许多新生儿与环境的第一次接触,通过优先效应启动微生物群落的组合。早期接触微生物会对宿主微生物群的组合和功能产生持久影响,给宿主的健康和疾病留下终生烙印。有关亲代照料在微生物获取过程中所起作用的研究主要集中在人类和与农业相关的宿主身上。有尾目脊椎动物提供了一个机会,来研究不同生命阶段的微生物群落组成与亲代投资的关系。在这项研究中,我们调查了毒蛙(石斛科)在亲代照料过程中微生物群的垂直传播情况,毒蛙的父亲会把它们的后代从陆生繁殖地运到水生托儿所。我们发现,胚胎的大量细菌定植是从卵黄膜孵化后开始的,这强调了卵黄膜在早期发育过程中作为微生物屏障的潜在作用。通过实验室交叉寄养实验,我们证明了毒蛙在运输蝌蚪时是其背上蝌蚪皮肤微生物的来源。为了研究运输如何在生态相关环境中影响蝌蚪的皮肤微生物群落,我们对自然栖息地中进行或不进行蝌蚪运输的同域物种的青蛙和蝌蚪进行了采样。我们发现,与不进行蝌蚪运输的蛙类相比,进行蝌蚪运输的蛙类皮肤上的微生物群落更加多样化。然而,我们发现成体和蝌蚪皮肤微生物群落的相似程度并没有因为蛙类是否表现出运输行为而有所不同。通过现场实验,我们证实了蝌蚪运输会导致与照料者皮肤相关的孤立微生物类群在蝌蚪体内持续定殖,尽管通常丰度较低。这是首次描述无尾两栖动物皮肤微生物垂直传播的研究,表明后代运输可能是亲代皮肤微生物传播的一种机制。总之,这些发现为进一步研究该目垂直传播如何影响宿主相关微生物群和生理学奠定了基础。
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