Glaciers host a variety of cold-adapted taxa, many of which have not yet been described. Interactions among glacier organisms are even less clear. Understanding ecological interactions is crucial to unravelling the functioning of glacier ecosystems, particularly in light of current glacier retreat. Through a review of the existing literature, we aim to provide a first overview of the biodiversity, primary production, trophic networks, and matter flow of a glacier ecosystem. We use the Forni Glacier (Central Italian Alps) – one of the best studied alpine glaciers in the world – as a model system for our literature review and integrate additional original data. We reveal the importance of allochthonous organic matter inputs, of Cyanobacteria and eukaryotic green algae in primary production, and the key role of springtails (Vertagopus glacialis) on the glacier surface in sustaining populations of two apex terrestrial predators: Nebria castanea (Coleoptera: Carabidae) and Pardosa saturatior (Araneae: Lycosidae). The cryophilic tardigrade Cryobiotus klebelsbergi is the apex consumer in cryoconite holes. This short food web highlights the fragility of nodes represented by invertebrates, contrasting with structured microbial communities in all glacier habitats. Although further research is necessary to quantify the ecological interactions of glacier organisms, this review summarises and integrates existing knowledge about the ecological processes on alpine glaciers and supports the importance of glacier-adapted organisms in providing ecosystem services.

Ecological interactions in glacier environments: a review of studies on a model Alpine glacier / A. Crosta, B. Valle, M. Caccianiga, M. Gobbi, F.G. Ficetola, F. Pittino, A. Franzetti, R.S. Azzoni, V. Lencioni, A. Senese, L. Corlatti, J. Buda, E. Poniecka, T. Novotna Jaromerska, K. Zawierucha, R. Ambrosini. - In: BIOLOGICAL REVIEWS. - ISSN 1464-7931. - (2024), pp. 1-18. [10.1111/brv.13138]

Ecological interactions in glacier environments: a review of studies on a model Alpine glacier

A. Crosta
Primo
;
B. Valle;M. Caccianiga;M. Gobbi;F.G. Ficetola;R.S. Azzoni;A. Senese;R. Ambrosini
Ultimo
2024

Abstract

Glaciers host a variety of cold-adapted taxa, many of which have not yet been described. Interactions among glacier organisms are even less clear. Understanding ecological interactions is crucial to unravelling the functioning of glacier ecosystems, particularly in light of current glacier retreat. Through a review of the existing literature, we aim to provide a first overview of the biodiversity, primary production, trophic networks, and matter flow of a glacier ecosystem. We use the Forni Glacier (Central Italian Alps) – one of the best studied alpine glaciers in the world – as a model system for our literature review and integrate additional original data. We reveal the importance of allochthonous organic matter inputs, of Cyanobacteria and eukaryotic green algae in primary production, and the key role of springtails (Vertagopus glacialis) on the glacier surface in sustaining populations of two apex terrestrial predators: Nebria castanea (Coleoptera: Carabidae) and Pardosa saturatior (Araneae: Lycosidae). The cryophilic tardigrade Cryobiotus klebelsbergi is the apex consumer in cryoconite holes. This short food web highlights the fragility of nodes represented by invertebrates, contrasting with structured microbial communities in all glacier habitats. Although further research is necessary to quantify the ecological interactions of glacier organisms, this review summarises and integrates existing knowledge about the ecological processes on alpine glaciers and supports the importance of glacier-adapted organisms in providing ecosystem services.
cryophiles; ecological interactions; glacial ecosystems; glacier ecology; supraglacial ecosystem; trophic webs
Settore BIOS-05/A - Ecologia
   Cold Case: structure and functioning of the disappearing glacier biodiversity
   Cold Case
   MINISTERO DELL'UNIVERSITA' E DELLA RICERCA
   2022TT8XHN_001

   Reconstructing community dynamics and ecosystem functioning after glacial retreat (IceCommunities)
   IceCommunities
   EUROPEAN COMMISSION
   H2020
   772284

   The European Biodiversity Partnership
   Biodiversa-plus
   European Commission
   Horizon Europe Framework Programme
   101052342
2024
9-set-2024
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1116971
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