TY - JOUR
T1 - Multi-taxa colonisation along the foreland of a vanishing equatorial glacier
AU - Rosero, Pedro
AU - Crespo-Pérez, Verónica
AU - Espinosa, Rodrigo
AU - Andino, Patricio
AU - Barragán, Álvaro
AU - Moret, Pierre
AU - Gobbi, Mauro
AU - Ficetola, Gentile Francesco
AU - Jaramillo, Ricardo
AU - Muriel, Priscilla
AU - Anthelme, Fabien
AU - Jacobsen, Dean
AU - Dangles, Olivier
AU - Condom, Thomas
AU - Gielly, Ludovic
AU - Poulenard, Jérôme
AU - Rabatel, Antoine
AU - Basantes, Rubén
AU - Cáceres Correa, Bolívar
AU - Cauvy-Fraunié, Sophie
N1 - Publisher Copyright:
© 2021 The Authors. Ecography published by John Wiley & Sons Ltd on behalf of Nordic Society Oikos
PY - 2021/5/6
Y1 - 2021/5/6
N2 - Retreating glaciers, icons of climate change, release new potential habitats for both aquatic and terrestrial organisms. High-elevation species are threatened by temperature increases and the upward migration of lowlands species. Improving our understanding of successional processes after glacier retreat becomes urgent, especially in the tropics, where glacier shrinkage is particularly fast. We examined the successional patterns of aquatic invertebrates, ground beetles, terrestrial plants, soil eukaryotes (algae, invertebrates, plants) in an equatorial glacier foreland (Carihuairazo, Ecuador). Based on both taxonomical identification and eDNA metabarcoding, we analysed the effects of both environmental conditions and age of deglacierization on community composition. Except for algae, diversity increased with time since deglacierization, especially among passive dispersers, suggesting that dispersal was a key driver structuring the glacier foreland succession. Spatial β-diversity was mainly attributed to nestedness for aquatic invertebrates, terrestrial plants and soil algae, likely linked to low environmental variability within the studied glacier foreland; and to turnover for soil invertebrates, suggesting competition exclusion at the oldest successional stage. Pioneer communities were dominated by species exhibiting flexible feeding strategies and high dispersal ability (mainly transported by wind), probably colonising from lower altitudes, or from the glacier in the case of algae. Overall, glacier foreland colonisation in the tropics exhibit common characteristics to higher latitudes. High-elevation species are nevertheless threatened, as the imminent extinction of many tropical glaciers will affect species associated to glacier-influenced habitats but also prevent cold-adapted and hygrophilous species from using these habitats as refuges in a warming world.
AB - Retreating glaciers, icons of climate change, release new potential habitats for both aquatic and terrestrial organisms. High-elevation species are threatened by temperature increases and the upward migration of lowlands species. Improving our understanding of successional processes after glacier retreat becomes urgent, especially in the tropics, where glacier shrinkage is particularly fast. We examined the successional patterns of aquatic invertebrates, ground beetles, terrestrial plants, soil eukaryotes (algae, invertebrates, plants) in an equatorial glacier foreland (Carihuairazo, Ecuador). Based on both taxonomical identification and eDNA metabarcoding, we analysed the effects of both environmental conditions and age of deglacierization on community composition. Except for algae, diversity increased with time since deglacierization, especially among passive dispersers, suggesting that dispersal was a key driver structuring the glacier foreland succession. Spatial β-diversity was mainly attributed to nestedness for aquatic invertebrates, terrestrial plants and soil algae, likely linked to low environmental variability within the studied glacier foreland; and to turnover for soil invertebrates, suggesting competition exclusion at the oldest successional stage. Pioneer communities were dominated by species exhibiting flexible feeding strategies and high dispersal ability (mainly transported by wind), probably colonising from lower altitudes, or from the glacier in the case of algae. Overall, glacier foreland colonisation in the tropics exhibit common characteristics to higher latitudes. High-elevation species are nevertheless threatened, as the imminent extinction of many tropical glaciers will affect species associated to glacier-influenced habitats but also prevent cold-adapted and hygrophilous species from using these habitats as refuges in a warming world.
KW - early succession
KW - equatorial glacier foreland
KW - glacier retreat
KW - multiple-taxa
UR - http://www.scopus.com/inward/record.url?scp=85100885657&partnerID=8YFLogxK
U2 - 10.1111/ecog.05478
DO - 10.1111/ecog.05478
M3 - Article
AN - SCOPUS:85100885657
SN - 0906-7590
VL - 44
SP - 1010
EP - 1021
JO - Ecography
JF - Ecography
IS - 7
ER -