Predicting the fate of eDNA in the environment and implications for studying biodiversity

J. B. Harrison, J. Sunday, S. Rogers
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引用次数: 230

Abstract

Environmental DNA (eDNA) applications are transforming the standard of characterizing aquatic biodiversity via the presence, location and abundance of DNA collected from environmental samples. As eDNA studies use DNA fragments as a proxy for the presence of organisms, the ecological properties of the complex and dynamic environments from which eDNA is sampled need to be considered for accurate biological interpretation. In this review, we discuss the role that differing environments play on the major processes that eDNA undergoes between organism and collection, including shedding, decay and transport. We focus on a mechanistic understanding of these processes and highlight how decay and transport models are being developed towards more accurate and robust predictions of the fate of eDNA. We conclude with five recommendations for eDNA researchers and practitioners, to advance current best practices, as well as to support a future model of eDNA spatio-temporal persistence.
预测环境中eDNA的命运及其对生物多样性研究的意义
环境DNA (eDNA)的应用正在改变通过从环境样本中收集DNA的存在、位置和丰度来表征水生生物多样性的标准。由于eDNA研究使用DNA片段作为生物体存在的代表,因此需要考虑采集eDNA的复杂动态环境的生态特性,以便进行准确的生物学解释。在这篇综述中,我们讨论了不同的环境对eDNA在生物体和收集过程中所经历的主要过程的作用,包括脱落、腐烂和运输。我们专注于对这些过程的机制理解,并强调如何发展衰变和运输模型,以更准确和可靠地预测eDNA的命运。最后,我们对eDNA研究人员和从业者提出了五项建议,以推进当前的最佳实践,并支持eDNA时空持久性的未来模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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