Kuschke Samantha G
Department of Biomedical and Diagnostic Services, College of Veterinary Medicine, University of Tennessee, 2407 River Drive, Knoxville, TN, 37996, USA.
Department of Biological sciences, Florida Atlantic University, 777 Glades Rd, Boca Raton, FL, 33431, USA.
Anim Microbiome. 2022 Sep 8;4(1):52. doi: 10.1186/s42523-022-00202-y.
Within the United States, all populations of sea turtles are listed as threatened or endangered under the Endangered Species Act. Identifying methods of supporting health, preventing disease, and treating disease is essential for conservation and management strategies for all species. Over the last few decades, advances in technology and high throughput sequencing have allowed a proliferation of research into core microbiota and microbiomes in humans and animals. Such investigations have proven that microbiota on and within a host can influence physiology, immunity, and development. Accordingly, a comprehensive understanding of microbiota is essential for unearthing the complex relationships within a microbiome and how those interactions and relationships can be used to promote health and prevent or treat disease. The goal of this review is to summarize the current microbiota research available across all species of sea turtles and identify any emerging trends. Methodological differences made it challenging to draw conclusions across studies, but it is apparent that each anatomical location investigated has a unique core microbiota with some potential overlap. In the future, unifying methodology across microbiota studies will allow broader conclusions to be drawn across all anatomic locations and species of sea turtles. These conclusions will then allow clinicians and conservationists to apply the research results in the field. Additionally, future efforts should include a wider range of organisms including fungi, viruses, parasites, epibiota, and archaea to unveil essential relationships among and between the organisms and host for maintenance of a healthy microbiome.
在美国,根据《濒危物种法》,所有海龟种群均被列为受威胁或濒危物种。确定支持健康、预防疾病和治疗疾病的方法对于所有物种的保护和管理策略至关重要。在过去几十年中,技术进步和高通量测序使得对人类和动物核心微生物群和微生物组的研究大量增加。此类研究已证明,宿主体内和体表的微生物群可影响生理、免疫和发育。因此,全面了解微生物群对于揭示微生物组内的复杂关系以及如何利用这些相互作用和关系来促进健康、预防或治疗疾病至关重要。本综述的目的是总结目前所有海龟物种的微生物群研究情况,并确定任何新出现的趋势。方法上的差异使得跨研究得出结论具有挑战性,但很明显,所研究的每个解剖部位都有独特的核心微生物群,存在一些潜在的重叠。未来,统一微生物群研究的方法将使我们能够就所有海龟的解剖部位和物种得出更广泛的结论。这些结论将使临床医生和保护主义者能够将研究结果应用于实际领域。此外,未来的研究应包括更广泛的生物体,如真菌、病毒、寄生虫、体表生物和古生菌以揭示生物体与宿主之间以及生物体之间维持健康微生物组的重要关系。