4.7 Article

Biodiversity change is uncoupled from species richness trends: Consequences for conservation and monitoring

Journal

JOURNAL OF APPLIED ECOLOGY
Volume 55, Issue 1, Pages 169-184

Publisher

WILEY
DOI: 10.1111/1365-2664.12959

Keywords

biodiversity change; biodiversity loss; diversity; dominance; human impact; monitoring; richness; species composition; species turnover; time series

Funding

  1. Ministry of Science and Culture, State of Lower Saxony
  2. German Research Foundation [DFG FZT 118]
  3. Iowa Department of Natural Resources
  4. Nutrient Network [DEB-0741952]
  5. Direct For Biological Sciences [1234162] Funding Source: National Science Foundation

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Global concern about human impact on biological diversity has triggered an intense research agenda on drivers and consequences of biodiversity change in parallel with international policy seeking to conserve biodiversity and associated ecosystem functions. Quantifying the trends in biodiversity is far from trivial, however, as recently documented by meta-analyses, which report little if any net change in local species richness through time. Here, we summarise several limitations of species richness as a metric of biodiversity change and show that the expectation of directional species richness trends under changing conditions is invalid. Instead, we illustrate how a set of species turnover indices provide more information content regarding temporal trends in biodiversity, as they reflect how dominance and identity shift in communities over time. We apply these metrics to three monitoring datasets representing different ecosystem types. In all datasets, nearly complete species turnover occurred, but this was disconnected from any species richness trends. Instead, turnover was strongly influenced by changes in species presence (identities) and dominance (abundances). We further show that these metrics can detect phases of strong compositional shifts in monitoring data and thus identify a different aspect of biodiversity change decoupled from species richness.Synthesis and applications: Temporal trends in species richness are insufficient to capture key changes in biodiversity in changing environments. In fact, reductions in environmental quality can lead to transient increases in species richness if immigration or extinction has different temporal dynamics. Thus, biodiversity monitoring programmes need to go beyond analyses of trends in richness in favour of more meaningful assessments of biodiversity change. Synthesis and applications:Temporal trends in species richness are insufficient to capture key changes in biodiversity in changing environments. In fact, reductions in environmental quality can lead to transient increases in species richness if immigration or extinction has different temporal dynamics. Thus, biodiversity monitoring programmes need to go beyond analyses of trends in richness in favour of more meaningful assessments of biodiversity change.

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