Glaciers are retreating worldwide at an ever-increasing rate, exposing new ice-free areas to ecological succession. This process leads to changes in biodiversity and potentially to novel species interactions. However, we still have a limited understanding of how glacier retreat influences species interaction networks, particularly the structure and robustness of mutualistic networks. After reconstructing plant–pollinator networks along a 140-years chronosequence on a glacier foreland, we address the effects of gla- cier retreat on network structure and robustness. Our results show that the prevalence of different network motifs changes over spacetime, leading to a decrease of network robustness. With glacier retreat, mutualistic networks shift from highly connected with diverse specialist interactions to loosely connected with few generalist interac- tions. Furthermore, despite the turnover of plant species, we find that species struc- tural roles remain constant over spacetime while depending on species identity. Our findings suggest that glacier retreat reshuffles mutualistic networks with motifs posing low robustness, leading to increased fragility. Understanding the assembly and break- ing down of species interaction networks provides novel insights into the development and stability of novel, post-glacial ecological systems facing glacier extinction.
Glacier retreat decreases mutualistic network robustness over spacetime / M. Conti, P. Cerretti, A. Ferrari, P. Gabrieli, F. Paone, C. Polidori, D. Sommaggio, G. Losapio. - In: ECOGRAPHY. - ISSN 0906-7590. - (2024), pp. e07558.1-e07558.11. [10.1111/ecog.07558]
Glacier retreat decreases mutualistic network robustness over spacetime
A. Ferrari;P. Gabrieli;C. Polidori;G. Losapio
Ultimo
2024
Abstract
Glaciers are retreating worldwide at an ever-increasing rate, exposing new ice-free areas to ecological succession. This process leads to changes in biodiversity and potentially to novel species interactions. However, we still have a limited understanding of how glacier retreat influences species interaction networks, particularly the structure and robustness of mutualistic networks. After reconstructing plant–pollinator networks along a 140-years chronosequence on a glacier foreland, we address the effects of gla- cier retreat on network structure and robustness. Our results show that the prevalence of different network motifs changes over spacetime, leading to a decrease of network robustness. With glacier retreat, mutualistic networks shift from highly connected with diverse specialist interactions to loosely connected with few generalist interac- tions. Furthermore, despite the turnover of plant species, we find that species struc- tural roles remain constant over spacetime while depending on species identity. Our findings suggest that glacier retreat reshuffles mutualistic networks with motifs posing low robustness, leading to increased fragility. Understanding the assembly and break- ing down of species interaction networks provides novel insights into the development and stability of novel, post-glacial ecological systems facing glacier extinction.
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