Nature Communications (Jul 2024)

Global patterns and drivers of fish reproductive potential on coral reefs

  • Jeneen Hadj-Hammou,
  • Joshua E. Cinner,
  • Diego R. Barneche,
  • Iain R. Caldwell,
  • David Mouillot,
  • James P. W. Robinson,
  • Nina M. D. Schiettekatte,
  • Alexandre C. Siqueira,
  • Brett M. Taylor,
  • Nicholas A. J. Graham

DOI
https://doi.org/10.1038/s41467-024-50367-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Fish fecundity scales hyperallometrically with body mass, meaning larger females produce disproportionately more eggs than smaller ones. We explore this relationship beyond the species-level to estimate the “reproductive potential” of 1633 coral reef sites distributed globally. We find that, at the site-level, reproductive potential scales hyperallometrically with assemblage biomass, but with a smaller median exponent than at the species-level. Across all families, modelled reproductive potential is greater in fully protected sites versus fished sites. This difference is most pronounced for the important fisheries family, Serranidae. When comparing a scenario where 30% of sites are randomly fully protected to a current protection scenario, we estimate an increase in the reproductive potential of all families, and particularly for Serranidae. Such results point to the possible ecological benefits of the 30 × 30 global conservation target and showcase management options to promote the sustainability of population replenishment.