Ecological networks are more sensitive to plant than to animal extinction under climate change.

Matthias Schleuning,Nico Blüthgen,D Matthias Dehling,Gita Benadi,Michaela Plein,Helge Bruelheide,Nina Farwig,Michael Kuhlmann,Martin Wiemers,Carsten F Dormann,Pierre Rasmont,Jörg Albrecht,Matthias Albrecht,Christiane N Weiner,Oliver Schweiger,Angelika Schwabe,Ingolf Kühn,Anselm Kratochwil,Josef Settele,Jochen Fründ,Ante Vujić,Thomas Hickler,Marion Beil,Nina Exeler,Denis Michez,Christian Hof,Erik Welk,Katrin Böhning–Gaese ,Heather D Alexander ,Sonja Mudri‐Stojnić

doi:10.1038/ncomms13965

Abstract

Impacts of climate change on individual species are increasingly well documented, but we lack understanding of how these effects propagate through ecological communities. Here we combine species distribution models with ecological network analyses to test potential impacts of climate change on >700 plant and animal species in pollination and seed-dispersal networks from central Europe. We discover that animal species that interact with a low diversity of plant species have narrow climatic niches and are most vulnerable to climate change. In contrast, biotic specialization of plants is not related to climatic niche breadth and vulnerability. A simulation model incorporating different scenarios of species coextinction and capacities for partner switches shows that projected plant extinctions under climate change are more likely to trigger animal coextinctions than vice versa. This result demonstrates that impacts of climate change on biodiversity can be amplified via extinction cascades from plants to animals in ecological networks.

Highlights

Impacts of climate change on individual species are increasingly well documented, but we lack understanding of how these effects propagate through ecological communities
We linked projected changes in climatic suitability to data on biotic specialization derived from 8 quantitative pollination and 5 quantitative seed-dispersal networks recorded in 13 regions across central Europe
We find that animal species with narrow climatic niches and a projected loss in climatic suitability interact with a low diversity of plant partners, whereas we do not find analogous relationships for plants

Summary

Introduction

Impacts of climate change on individual species are increasingly well documented, but we lack understanding of how these effects propagate through ecological communities. A simulation model incorporating different scenarios of species coextinction and capacities for partner switches shows that projected plant extinctions under climate change are more likely to trigger animal coextinctions than vice versa This result demonstrates that impacts of climate change on biodiversity can be amplified via extinction cascades from plants to animals in ecological networks. We find that animal species with narrow climatic niches and a projected loss in climatic suitability interact with a low diversity of plant partners, whereas we do not find analogous relationships for plants This important difference between plant and animal species affects the likelihood of species coextinctions under climate change. We conclude that a high potential for adaptive partner switches is required to stabilize mutualistic networks against extinction cascades from plants to animals under climate change

Methods

Results

Conclusion