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Related Experiment Video

Updated: Sep 17, 2025

Resurrection of Dormant Daphnia magna: Protocol and Applications
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Can Macroevolution Inform Contemporary Extinction Risk?

Sarah-Sophie Weil1,2,3, Sébastien Lavergne2, Florian C Boucher2

  • 1Department of Biodiversity, Macroecology & Biogeography, University of Göttingen, Göttingen, Germany.

Ecology Letters
|June 30, 2025
PubMed
Summary
This summary is machine-generated.

Macroevolutionary rates can help predict species extinction risk. Past extinction rates are reliable predictors, but diversification and niche evolution rates require more research for conservation applications.

Keywords:
conservationdiversification rateextinction rateextinction riskmacroevolutionmacroevolutionary ratesniche evolutionphylogenetic analysisspeciation ratetraits

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Area of Science:

  • Ecology and evolutionary biology
  • Conservation science

Background:

  • Global change drives species toward extinction, necessitating early detection of threatened species.
  • Assessing extinction risk is challenging due to data limitations on species distributions, population sizes, and trends.
  • Ecological traits like range size are not always straightforward indicators of extinction risk.

Purpose of the Study:

  • To assess the assumptions linking macroevolutionary indicators to contemporary extinction risk.
  • To investigate if macroevolutionary rates can serve as proxies for extinction-promoting traits.
  • To determine the reliability of macroevolutionary indices for identifying species at risk.

Main Methods:

  • Reviewing current understanding of macroevolutionary indicators and extinction risk.
  • Analyzing the relationship between past extinction rates and contemporary extinction risk.
  • Examining assumptions for diversification and niche evolution rates in relation to extinction risk.

Main Results:

  • Past extinction rates reliably predict current extinction risk due to inherited traits.
  • The relationship between current extinction risk and diversification/niche evolution rates is taxon- and condition-dependent.
  • Current understanding is insufficient to fully utilize diversification and niche evolution rates as extinction risk predictors.

Conclusions:

  • Macroevolutionary indicators show potential for identifying inherent extinction risk.
  • Past extinction rates are valuable predictors, complementing trait-based approaches.
  • Further research is needed to validate assumptions for diversification and niche evolution rates across diverse taxa and environments.