Environmental DNA analysis for macro-organisms: species distribution and more

T. Minamoto
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引用次数: 10

Abstract

Abstract In an era of severe biodiversity loss, biological monitoring is becoming increasingly essential. The analysis of environmental DNA (eDNA) has emerged as a new approach that could revolutionize the biological monitoring of aquatic ecosystems. Over the past decade, macro-organismal eDNA analysis has undergone significant developments and is rapidly becoming established as the golden standard for non-destructive and non-invasive biological monitoring. In this review, I summarize the development of macro-organismal eDNA analysis to date and the techniques used in this field. I also discuss the future perspective of these analytical methods in combination with sophisticated analytical techniques for DNA research developed in the fields of molecular biology and molecular genetics, including genomics, epigenomics, and single-cell technologies. eDNA analysis, which to date has been used primarily for determining the distribution of organisms, is expected to develop into a tool for elucidating the physiological state and behaviour of organisms. The fusion of microbiology and macrobiology through an amalgamation of these technologies is anticipated to lead to the future development of an integrated biology.
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大型生物的环境DNA分析:物种分布等
在生物多样性严重丧失的时代,生物监测变得越来越重要。环境DNA (environmental DNA, eDNA)分析已经成为一种新的方法,可以彻底改变水生生态系统的生物监测。在过去的十年中,宏观生物eDNA分析经历了重大的发展,并迅速成为非破坏性和非侵入性生物监测的黄金标准。本文综述了宏观生物eDNA分析的研究进展及应用于该领域的技术。我还讨论了这些分析方法与分子生物学和分子遗传学领域的DNA研究的复杂分析技术相结合的未来前景,包括基因组学,表观基因组学和单细胞技术。迄今为止,eDNA分析主要用于确定生物体的分布,预计将发展成为阐明生物体的生理状态和行为的工具。通过这些技术的融合,微生物学和宏观生物学的融合有望导致综合生物学的未来发展。
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