Your search keyword '"Gaüzère P"' showing total 2 results

1. Dissimilarity of vertebrate trophic interactions reveals spatial uniqueness but functional redundancy across Europe.

Author

Gaüzère P, Botella C, Poggiato G, O'Connor L, Di Marco M, Dragonetti C, Maiorano L, Renaud J, and Thuiller W

Subjects

Animals, Climate Change, Europe, Vertebrates, Biodiversity, Ecosystem

Abstract

Identifying areas that contain species assemblages not found elsewhere in a region is central to conservation planning. 1 , 2 Species assemblages contain networks of species interactions that underpin species dynamics, 3 , 4 ecosystem processes, and contributions to people. 5 , 6 , 7 Yet the uniqueness of interaction networks in a regional context has rarely been assessed. Here, we estimated the spatial uniqueness of 10,000 terrestrial vertebrate trophic networks across Europe (1,164 species, 50,408 potential interactions 8 ) based on the amount of similarity between all local networks mapped at a 10 km resolution. Our results revealed more unique networks in the Arctic bioregion, but also in southern Europe and isolated islands. We then contrasted the uniqueness of trophic networks with their vulnerability to human footprint and future climate change and measured their coverage within protected areas. This analysis revealed that unique networks situated in southern Europe were particularly exposed to human footprint and that unique networks in the Arctic might be at risk from future climate change. However, considering interaction networks at the level of trophic groups, rather than species, revealed that the general structure of trophic networks was redundant across the continent, in contrast to species' interactions. We argue that proactive European conservation strategies might gain relevance by turning their eyes toward interaction networks that are both unique and vulnerable., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

2. The diversity of biotic interactions complements functional and phylogenetic facets of biodiversity.

Author

Gaüzère P, O'Connor L, Botella C, Poggiato G, Münkemüller T, Pollock LJ, Brose U, Maiorano L, Harfoot M, and Thuiller W

Subjects

Animals, Biological Evolution, Humans, Phylogeny, Vertebrates, Biodiversity, Ecosystem

Abstract

Taxonomic, functional, and phylogenetic diversities are important facets of biodiversity. Studying them together has improved our understanding of community dynamics, ecosystem functioning, and conservation values. 1-3 In contrast to species, traits, and phylogenies, the diversity of biotic interactions has so far been largely ignored as a biodiversity facet in large-scale studies. This neglect represents a crucial shortfall because biotic interactions shape community dynamics, drive important aspects of ecosystem functioning, 4-7 provide services to humans, and have intrinsic conservation value. 8,9 Hence, the diversity of interactions can provide crucial and unique information with respect to other diversity facets. Here, we leveraged large datasets of trophic interactions, functional traits, phylogenies, and spatial distributions of >1,000 terrestrial vertebrate species across Europe at a 10-km resolution. We computed the diversity of interactions (interaction diversity [ID]) in addition to functional diversity (FD) and phylogenetic diversity (PD). After controlling for species richness, surplus and deficits of ID were neither correlated with FD nor with PD, thus representing unique and complementary information to the commonly studied facets of diversity. A three-dimensional mapping allowed for visualizing different combinations of ID-FD-PD simultaneously. Interestingly, the spatial distribution of these diversity combinations closely matched the boundaries between 10 European biogeographic regions and revealed new interaction-rich areas in the European Boreal region and interaction-poor areas in Central Europe. Our study demonstrates that the diversity of interactions adds new and ecologically relevant information to multifacetted, large-scale diversity studies with implications for understanding eco-evolutionary processes and informing conservation planning., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022