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A combination of machine‐learning and <scp>eDNA</scp> reveals the genetic signature of environmental change at the landscape levels

François Keck, Jeanine Brantschen, Florian Altermatt

2023Molecular Ecology24 citationsDOIOpen Access PDF

Abstract

The current advances of environmental DNA (eDNA) bring profound changes to ecological monitoring and provide unique insights on the biological diversity of ecosystems. The very nature of eDNA data is challenging yet also revolutionizing how biological monitoring information is analysed. In particular, new metrics and approaches should take full advantage of the extent and detail of molecular data produced by genetic methods. In this perspective, machine learning algorithms are particularly promising as they can capture complex relationships between the multiple environmental pressures and the diversity of biological communities. We investigated the potential of a new generation of biomonitoring tools that implement machine-learning techniques to fully exploit eDNA datasets. We trained a machine learning model to discriminate between reference and impacted communities of freshwater macroinvertebrates and assessed its performances using a large eDNA dataset collected at 64 standard federal monitoring sites across Switzerland. We show that a model trained on eDNA is significantly better than a naive model and performs similarly to a model trained on traditional data. Our proof-of-concept shows that such a combination of eDNA and machine learning approaches has the potential to complement or even replace traditional environmental monitoring, and could be scaled along temporal or spatial dimensions.

Topics & Concepts

Environmental DNAMachine learningBiologyExploitArtificial intelligenceCitizen scienceEcologyComputer scienceBiodiversityBotanyComputer securityEnvironmental DNA in Biodiversity StudiesMicrobial Community Ecology and PhysiologyIdentification and Quantification in Food