TICI: a taxon-independent community index for eDNA-based ecological health assessment

Shaun P. Wilkinson; Amy A. Gault; Susan A. Welsh; Joshua P. Smith; Bruno O. David; Andy S. Hicks; Daniel R. Fake; Alastair M. Suren; Megan R. Shaffer; Simon N. Jarman; Michael Bunce

doi:10.7717/peerj.16963

PeerJ (Feb 2024)

TICI: a taxon-independent community index for eDNA-based ecological health assessment

Shaun P. Wilkinson,
Amy A. Gault,
Susan A. Welsh,
Joshua P. Smith,
Bruno O. David,
Andy S. Hicks,
Daniel R. Fake,
Alastair M. Suren,
Megan R. Shaffer,
Simon N. Jarman,
Michael Bunce

Affiliations

Shaun P. Wilkinson: Wilderlab NZ Ltd., Wellington, New Zealand
Amy A. Gault: Wilderlab NZ Ltd., Wellington, New Zealand
Susan A. Welsh: Wilderlab NZ Ltd., Wellington, New Zealand
Joshua P. Smith: School of Science, The University of Waikato, Hamilton, Waikato, New Zealand
Bruno O. David: Waikato Regional Council, Hamilton, Waikato, New Zealand
Andy S. Hicks: Ministry for the Environment, Wellington, New Zealand
Daniel R. Fake: Hawke’s Bay Regional Council, Napier, Hawke’s Bay, New Zealand
Alastair M. Suren: Bay of Plenty Regional Council, Tauranga, Bay of Plenty, New Zealand
Megan R. Shaffer: School of Marine and Environmental Affairs, University of Washington, Seattle, WA, United States of America
Simon N. Jarman: School of Molecular and Life Sciences, Curtin University, Bentley, Western Australia, Australia
Michael Bunce: School of Molecular and Life Sciences, Curtin University, Bentley, Western Australia, Australia

DOI: https://doi.org/10.7717/peerj.16963
Journal volume & issue: Vol. 12
p. e16963

Abstract

Read online Read online

Global biodiversity is declining at an ever-increasing rate. Yet effective policies to mitigate or reverse these declines require ecosystem condition data that are rarely available. Morphology-based bioassessment methods are difficult to scale, limited in scope, suffer prohibitive costs, require skilled taxonomists, and can be applied inconsistently between practitioners. Environmental DNA (eDNA) metabarcoding offers a powerful, reproducible and scalable solution that can survey across the tree-of-life with relatively low cost and minimal expertise for sample collection. However, there remains a need to condense the complex, multidimensional community information into simple, interpretable metrics of ecological health for environmental management purposes. We developed a riverine taxon-independent community index (TICI) that objectively assigns indicator values to amplicon sequence variants (ASVs), and significantly improves the statistical power and utility of eDNA-based bioassessments. The TICI model training step uses the Chessman iterative learning algorithm to assign health indicator scores to a large number of ASVs that are commonly encountered across a wide geographic range. New sites can then be evaluated for ecological health by averaging the indicator value of the ASVs present at the site. We trained a TICI model on an eDNA dataset from 53 well-studied riverine monitoring sites across New Zealand, each sampled with a high level of biological replication (n = 16). Eight short-amplicon metabarcoding assays were used to generate data from a broad taxonomic range, including bacteria, microeukaryotes, fungi, plants, and animals. Site-specific TICI scores were strongly correlated with historical stream condition scores from macroinvertebrate assessments (macroinvertebrate community index or MCI; R2 = 0.82), and TICI variation between sample replicates was minimal (CV = 0.013). Taken together, this demonstrates the potential for taxon-independent eDNA analysis to provide a reliable, robust and low-cost assessment of ecological health that is accessible to environmental managers, decision makers, and the wider community.

Published in PeerJ

ISSN: 2167-8359 (Online)
Publisher: PeerJ Inc.
Country of publisher: United States
LCC subjects: Medicine; Science: Biology (General)
Website: https://peerj.com/

About the journal

Abstract

Keywords