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Using species distribution models only may underestimate climate change impacts on future marine biodiversity
Moullec, F.; Barrier, N.; Drira, S.; Guilhaumon, F.; Hattab, T.; Peck, M.A.; Shin, Y.-J. (2022). Using species distribution models only may underestimate climate change impacts on future marine biodiversity. Ecol. Model. 464: 109826. https://dx.doi.org/10.1016/j.ecolmodel.2021.109826
In: Ecological Modelling. Elsevier: Amsterdam; Lausanne; New York; Oxford; Shannon; Tokyo. ISSN 0304-3800; e-ISSN 1872-7026, more
Peer reviewed article  

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Keyword
Author keywords
    Beta diversity; Climate change; End-to-end model; Osmose mode; Species distribution model; Mediterranean sea

Authors  Top 
  • Moullec, F, more
  • Barrier, N.
  • Drira, S.
  • Guilhaumon, F.
  • Hattab, T.
  • Peck, M.A., more
  • Shin, Y.-J.

Abstract
    In face of global changes, projecting and mapping biodiversity changes are of critical importance to support management and conservation measures of marine ecosystems. Despite the development of a wide variety of ecosystem models capable of integrating an increasing number of ecological processes, most projections of climate-induced changes in marine biodiversity are based on species distribution models (SDMs). These correlative models present a significant advantage when the lack of knowledge on the species physiology is counterbalanced by the availability of relevant environmental variables over the species geographical range. However, correlative SDMs neglect intra- and inter-specific interactions and thereby can lead to biased projections of changes in biodiversity distribution. To evaluate the influence of trophic interactions on projections of species richness and assemblage composition under climate change scenarios, we compared biodiversity projections derived from an ensemble of different SDMs to projections derived from a hybrid model coupling SDMs and a multispecies trophic model in the Mediterranean Sea. Our results show that accounting for trophic interactions modifies projections of future biodiversity in the Mediterranean Sea. Under the RCP8.5 scenario, SDMs tended to overestimate the gains and underestimate the losses of species richness by the end of the 21st century, with marked local differences in projections, both in terms of magnitude and trend, in some biodiversity hotspots. In both SDMs and hybrid approaches, nestedness with gains in species richness was the main pattern driving dissimilarity between present and future fish and macro-invertebrate species assemblages at the Mediterranean basin scale. However, at local scale, we highlighted some differences in the relative contribution of nestedness vs replacement in driving dissimilarity. Our results call for the development of integrated modelling tools that can mechanistically consider multiple biotic and abiotic drivers to improve projections of future marine biodiversity.

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