Quantifying the overall effect of biotic interactions on species distributions along environmental gradients
Separating environmental effects from those of interspecific interactions on species distributions has always been a central objective of community ecology. Despite years of effort in analysing patterns of species co-occurrences and the developments of sophisticated tools, we are still unable to add...
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| Veröffentlicht in: | Ecological modelling 2023-09, Vol.483, p.110424, Article 110424 |
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| container_title | Ecological modelling |
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| creator | Ohlmann, Marc Matias, Catherine Poggiato, Giovanni Dray, Stéphane Thuiller, Wilfried Miele, Vincent |
| description | Separating environmental effects from those of interspecific interactions on species distributions has always been a central objective of community ecology. Despite years of effort in analysing patterns of species co-occurrences and the developments of sophisticated tools, we are still unable to address this major objective. A key reason is that the wealth of ecological knowledge is not sufficiently harnessed in current statistical models, notably the knowledge on interspecific interactions.
Here, we develop ELGRIN, a statistical model that simultaneously combines knowledge on interspecific interactions (i.e, the metanetwork), environmental data and species occurrences to tease apart their relative effects on species distributions. Instead of focusing on single effects of pairwise species interactions, which have little sense in complex communities, ELGRIN contrasts the overall effect of species interactions to that of the environment.
Using various simulated and empirical data, we demonstrate the suitability of ELGRIN to address the objectives for various types of interspecific interactions like mutualism, competition and trophic interactions. We then apply the model on vertebrate trophic networks in the European Alps to map the effect of biotic interactions on species distributions. We find that altitude, species richness and connectance significantly impact the overall effect of biotic interactions.
Data on ecological networks are everyday increasing and we believe the time is ripe to mobilise these data to better understand biodiversity patterns. ELGRIN provides this opportunity to unravel how interspecific interactions actually influence species distributions. |
| doi_str_mv | 10.1016/j.ecolmodel.2023.110424 |
| format | Article |
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Here, we develop ELGRIN, a statistical model that simultaneously combines knowledge on interspecific interactions (i.e, the metanetwork), environmental data and species occurrences to tease apart their relative effects on species distributions. Instead of focusing on single effects of pairwise species interactions, which have little sense in complex communities, ELGRIN contrasts the overall effect of species interactions to that of the environment.
Using various simulated and empirical data, we demonstrate the suitability of ELGRIN to address the objectives for various types of interspecific interactions like mutualism, competition and trophic interactions. We then apply the model on vertebrate trophic networks in the European Alps to map the effect of biotic interactions on species distributions. We find that altitude, species richness and connectance significantly impact the overall effect of biotic interactions.
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Here, we develop ELGRIN, a statistical model that simultaneously combines knowledge on interspecific interactions (i.e, the metanetwork), environmental data and species occurrences to tease apart their relative effects on species distributions. Instead of focusing on single effects of pairwise species interactions, which have little sense in complex communities, ELGRIN contrasts the overall effect of species interactions to that of the environment.
Using various simulated and empirical data, we demonstrate the suitability of ELGRIN to address the objectives for various types of interspecific interactions like mutualism, competition and trophic interactions. We then apply the model on vertebrate trophic networks in the European Alps to map the effect of biotic interactions on species distributions. We find that altitude, species richness and connectance significantly impact the overall effect of biotic interactions.
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Here, we develop ELGRIN, a statistical model that simultaneously combines knowledge on interspecific interactions (i.e, the metanetwork), environmental data and species occurrences to tease apart their relative effects on species distributions. Instead of focusing on single effects of pairwise species interactions, which have little sense in complex communities, ELGRIN contrasts the overall effect of species interactions to that of the environment.
Using various simulated and empirical data, we demonstrate the suitability of ELGRIN to address the objectives for various types of interspecific interactions like mutualism, competition and trophic interactions. We then apply the model on vertebrate trophic networks in the European Alps to map the effect of biotic interactions on species distributions. We find that altitude, species richness and connectance significantly impact the overall effect of biotic interactions.
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| subjects | Biodiversity Biodiversity and Ecology Biodiversity patterns C-score Environmental niche Environmental Sciences Global Changes Life Sciences Markov random fields Metanetwork Methodology Species co-occurrence Statistics |
| title | Quantifying the overall effect of biotic interactions on species distributions along environmental gradients |
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