Predicting current and future spatial patterns of nature's contributions to people from species distribution models

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Version: Final published version
License: CC BY-NC 4.0
Serval ID
serval:BIB_0E6ACD5970F1
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Predicting current and future spatial patterns of nature's contributions to people from species distribution models
Journal
Ecological Indicators
Author(s)
Rey P.L., Adde A., Külling N., Petitpierre B., Vittoz V., Lehmann A., Guisan A.
ISSN
1470-160X
Publication state
Published
Issued date
06/2025
Peer-reviewed
Oui
Volume
175
Pages
113528
Language
english
Abstract
The degradation of climate and biodiversity are two major crises humans are facing and for which rapid action is needed. Both crises are partially linked and susceptible to threaten nature’s contribution to peoples (NCPs). Hence, it is essential to find efficient strategies for protecting key areas for both biodiversity and NCPs for a sustainable future. Studies at various scales have already used species distributions and NCP maps to identify the most optimal areas for safeguarding both components. Yet, an evaluation of how changes in species distributions could affect NCPs was still lacking. Here, based on a recently established table of relationships between more than 2,000 native vertebrate and tracheophyte species and 17 NCPs, we propose and illustrate a novel approach to predict the spatial distribution of NCPs from individual species predictions for the current period and four future time-scenarios in the Western Swiss Alps. Predictions of the different NCPs and their categories show varying degrees of spatial correlation, with some NCPs revealing very distinct patterns across time-scenarios. An overall decrease of NCP value is predicted for each future time-scenario. According to our results, NCPs would not increase at higher elevations in the subalpine and alpine belts and would remain high at mid-elevations in the montane belt along river valleys. Our study highlights the potential to predict NCPs directly from species predictions in biodiversity assessments, allowing a better understanding and a better anticipation of the way species contribute to NCP and human well-being. The species-based NCP prediction approach we propose constitutes a major new asset to improve spatial conservation planning, but the development of such species-NCP tables should continue, and larger databases be compiled.
Open Access
Yes
Create date
24/04/2025 9:32
Last modification date
13/05/2025 7:12
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