Abstract
Ground beetles (Coleoptera: Carabidae) are among the early colonisers of recently deglaciated terrains. While patterns of carabid colonisation along forelands of retreating glaciers have been thoroughly investigated in temperate climates, information remains scarce in tropical mountains. This study aimed to describe for the first time the carabid beetle species assemblages along the chronosequence of two tropical Andean glaciers (Antisana and Carihuairazo, Ecuador). Shannon index, taxonomic distinctness and species assemblage composition did not reveal deterministic and directional patterns. Only the principal coordinate analysis performed on the Antisana dataset showed that some species had a clear preference for terrains deglaciated for more than 200 years. Our results showed that equatorial glacier forelands are colonised by pioneer species that persist from the recently deglaciated terrains (less than 25 years) to terrains deglaciated since more than 200 years. This pattern fits the ‘addition and persistence model’ of high-latitude glacier forelands, rather than the ‘species replacement model’ of the Alps. The pioneer species observed are high-altitude specialists adapted to constantly cold environments, but not specifically ice-related. In the current context of climate warming, pioneer and cold-adapted species living near the glaciers of equatorial mountains are therefore only threatened by the ‘summit trap’ risk, unlike in temperate regions, as they are not strictly linked to the glacier microclimate.
| Original language | English |
|---|---|
| Pages (from-to) | 213-226 |
| Number of pages | 14 |
| Journal | Neotropical Entomology |
| Volume | 49 |
| Issue number | 2 |
| DOIs | |
| State | Published - 1 Apr 2020 |
Bibliographical note
Publisher Copyright:© 2020, Sociedade Entomológica do Brasil.
Funding
Mauro Gobbi’s field trip was co-funded by CNRS and Autonomous Province of Trento (Italy), and supported by Club Alpino Italiano and GM Calze srl. The field trip was also funded by grants from Secretaría de Educación Superior, Ciencia, Tecnología e Innovación (SENESCYT, Arca de Noé Initiative; S. R. Ron and O. Torres-Carvajal Principal Investigators). Acknowledgements Special thanks are due to Washington Pruna, Saúl Aguirre and Verónica Crespo for their help during the field work; to Ricardo Jaramillo and Priscilla Muriel for the funding, logistic, administrative and data management support on the Antisana plot; and to Antoine Rabatel for his expert advice on moraine chronology. The Ecuadorian Ministerio de Ambiente provided research and collection permits numbers 005-12-IC-FAU-DNB/MA, 003-15-IC-FAU-DNB/MA, 005-14-IC-FAU-DNB/MA and 005-15-IC-FAU-DNB/MA. Part of the glaciological data were provided by the Service National d’Observation GLACIOCLIM (http://glacioclim.osug.fr/) funded by CNRS-INSU, IRD and Univ. Grenoble Alpes and the International Joint Laboratory GREAT ICE (IRD, EPN-Quito). This study is part of the SUMMITEX project funded by the CNRS (PICS-06724, 2015–2017 and MSHS-T USR 3414), the INSPYRAND project funded by the CNRS (PEPS 2016, INSHS and Réseau National des MSH) and two PUCE projects (2016–2017): Efecto del rápido retroceso glaciar sobre la biodiversidad en ecosistemas tropicales de altura, code M13434, and Monitoring Climate Change Impact on the High Andes (MICCAA), code N13419.
| Funders | Funder number |
|---|---|
| Club Alpino Italiano | |
| GM Calze srl | |
| Réseau National des MSH | N13419, M13434 |
| Ministerio del Ambiente, Agua y Transición Ecológica | 005-15-IC-FAU-DNB/MA, 005-14-IC-FAU-DNB/MA, 003-15-IC-FAU-DNB/MA, 005-12-IC-FAU-DNB/MA |
| Secretaría de Educación Superior, Ciencia, Tecnología e Innovación | |
| Institut national des sciences de l'Univers | |
| Centre National de la Recherche Scientifique | MSHS-T USR 3414, PICS-06724 |
| Provincia Autonoma di Trento | |
| Institut des sciences humaines et sociales |
Keywords
- Carabids, extinction risk, glacier retreat, high-altitude species, pioneer species, páramo
