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Herbivory effects of sea urchin species on a coral reef (Bora-Bora, French Polynesia)
Krimou, S.; Gairin, E.; Gautrand, L.; Sowinski, J.; Trotier, M.; Minier, L.; Bischoff, H.; Sturny, V.; Maueau, T.; Waqalevu, V.; Bulleri, F.; Raick, X.; Bertucci, F.; Lecchini, D. (2023). Herbivory effects of sea urchin species on a coral reef (Bora-Bora, French Polynesia). J. Exp. Mar. Biol. Ecol. 564: 151900. https://dx.doi.org/10.1016/j.jembe.2023.151900
In: Journal of Experimental Marine Biology and Ecology. Elsevier: New York. ISSN 0022-0981; e-ISSN 1879-1697, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Krimou, S.
  • Gairin, E.
  • Gautrand, L.
  • Sowinski, J.
  • Trotier, M.
  • Minier, L.
  • Bischoff, H.
  • Sturny, V.
  • Maueau, T.
  • Waqalevu, V.
  • Bulleri, F.
  • Raick, X., more
  • Bertucci, F., more
  • Lecchini, D.

Abstract
    Macroalgae are becoming dominant on coral reefs worldwide, replacing corals as key habitat formers. Incrementing consumption rates by herbivores, such as sea urchins, has been identified as a viable strategy for promoting coral recovery. By means of a 28-day experiment, we assessed the grazing effects of the sea urchins, Tripneustes gratilla and Diadema setosum, on the macroalgal assemblages of shallow reefs at Bora-Bora (French Polynesia). In particular, each urchin species was either absent or maintained, using cages (n = 10), at a density of 5 individuals/m2. T. gratilla exerted stronger negative effects than D. setosum on all the examined macroalgae (i.e., Turbinaria ornata, Padina boryana, Halimeda spp, Dictyota spp). In addition, the grazing effects by T. gratilla on macroalgae emerged shortly after the start of the experiment, more rapidly than those of D. setosum. Despite an apparent lower food preference for T. ornata in D.setosum, all macroalgae were consumed by both species and the composition of the macroalgal assemblages (i.e., the proportion of each species) did not change after 28 days. Overall, our study suggests that herbivorous sea urchins, when at relatively high densities, could contribute to sustaining coral-dominance on coral reefs by keeping macroalgae under control.

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