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Biogeographical network analysis of plant species distribution in the Mediterranean region.

Authors
  • Lenormand, Maxime1
  • Papuga, Guillaume2, 3
  • Argagnon, Olivier2
  • Soubeyrand, Maxence1
  • De Barros, Guilhem2
  • Alleaume, Samuel1
  • Luque, Sandra1
  • 1 Irstea UMR TETIS Montpellier France. , (France)
  • 2 Conservatoire botanique national méditerranéen de Porquerolles Parc scientifique Agropolis Montferrier sur Lez France. , (France)
  • 3 UMR 5175 CEFE CNRS Montpellier Cedex 5 France. , (France)
Type
Published Article
Journal
Ecology and Evolution
Publisher
Wiley (John Wiley & Sons)
Publication Date
Jan 01, 2019
Volume
9
Issue
1
Pages
237–250
Identifiers
DOI: 10.1002/ece3.4718
PMID: 30680110
Source
Medline
Keywords
Language
English
License
Unknown

Abstract

The delimitation of bioregions helps to understand historical and ecological drivers of species distribution. In this work, we performed a network analysis of the spatial distribution patterns of plants in south of France (Languedoc-Roussillon and Provence-Alpes-Côte d'Azur) to analyze the biogeographical structure of the French Mediterranean flora at different scales. We used a network approach to identify and characterize biogeographical regions, based on a large database containing 2.5 million of geolocalized plant records corresponding to more than 3,500 plant species. This methodology is performed following five steps, from the biogeographical bipartite network construction to the identification of biogeographical regions under the form of spatial network communities, the analysis of their interactions, and the identification of clusters of plant species based on the species contribution to the biogeographical regions. First, we identified two sub-networks that distinguish Mediterranean and temperate biota. Then, we separated eight statistically significant bioregions that present a complex spatial structure. Some of them are spatially well delimited and match with particular geological entities. On the other hand, fuzzy transitions arise between adjacent bioregions that share a common geological setting, but are spread along a climatic gradient. The proposed network approach illustrates the biogeographical structure of the flora in southern France and provides precise insights into the relationships between bioregions. This approach sheds light on ecological drivers shaping the distribution of Mediterranean biota: The interplay between a climatic gradient and geological substrate shapes biodiversity patterns. Finally, this work exemplifies why fragmented distributions are common in the Mediterranean region, isolating groups of species that share a similar eco-evolutionary history.

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