Abstract
The climate variability hypothesis posits that increased environmental thermal variation should select for thermal generalists, while stable environments should favor thermal specialists. This hypothesis has been tested on large spatial scales, such as latitude and elevation, but less so on smaller scales reflective of the experienced microclimate. Here, we estimated thermal tolerance limits of 75 species of amphibian tadpoles from an aseasonal tropical mountain range of the Ecuadorian Andes, distributed along a 3500 m elevational range, to test the climatic variability hypothesis at a large (elevation) and a small (microhabitat) scale. We show how species from less variable thermal habitats, such as lowlands and those restricted to streams, exhibit narrower thermal tolerance breadths than highland and pond-dwelling species respectively. Interestingly, while broader thermal tolerance breadths at large scales are driven by higher cold tolerance variation (heat-invariant hypothesis), at local scales they are driven by higher heat tolerance variation. This contrasting pattern may result from divergent selection on both thermal limits to face environmental thermal extremes at different scales. Specifically, within the same elevational window, exposure to extreme maximum temperatures could be avoided through habitat shifts from temporary ponds to permanent ponds or streams, while minimum peak temperatures remained invariable between habitats but steadily decreased with elevation. Therefore an understanding of the effects of habitat conversion is crucial for future research on resilience to climate change.
| Original language | English |
|---|---|
| Article number | e05906 |
| Journal | Ecography |
| Volume | 2022 |
| Issue number | 5 |
| DOIs | |
| State | Published - 5 Apr 2022 |
Bibliographical note
Publisher Copyright:© 2022 The Authors. Ecography published by John Wiley & Sons Ltd on behalf of Nordic Society Oikos.
Funding
– We thank the staff from the Amphibian Conservation Initiative ‘Balsa de los Sapos' in PUCE for helping with fieldwork and laboratory. The Arca de Noé Project team, and especially Santiago Ron, in PUCE provided individuals and helped with species ID. Also Alex Achig, Dennisse Benalcálzar, Mayra Castro, Paola Chávez, David Jacome, Gabriela Moscoso, Nadia Páez, Mari Piñero, Belén Proaño, María José Quiroz, David Velalcázar and Carolina Yandún helped in field and/or lab work. David Velalcázar, Javier Pinto and Francy Mora retrieved some microenvironmental data. Agus Camacho, Carlos A. Navas, Alfredo Nicieza, Alex Richter-Boix, Ferran Sayol and Mirco Solé made suggestions that substantively improved the manuscript. – This study was supported by AECID (AP/038788/11) and MINECO (CGL2012-40246-C02-01 and CGL2017-86924-P) grants to M.T., A.M.-V. and Severo Ochoa (SEV-69) funds to M.T. Frogs ex situ management was funded by Dirección General Académica of PUCE through research grant L13227 to A.M.-V. P.P. was supported by a MAE-AECID grant (BOE-A-2015-12270). – This study was supported by AECID (AP/038788/11) and MINECO (CGL2012‐40246‐C02‐01 and CGL2017‐86924‐P) grants to M.T., A.M.‐V. and Severo Ochoa (SEV‐69) funds to M.T. Frogs ex situ management was funded by Dirección General Académica of PUCE through research grant L13227 to A.M.‐V. P.P. was supported by a MAE‐AECID grant (BOE‐A‐2015‐12270).
| Funders | Funder number |
|---|---|
| Arca de Noé Project team | |
| Balsa de los Sapos | |
| Dirección General Académica of PUCE | BOE‐A‐2015‐12270, L13227 |
| MAE-AECID | |
| Severo Ochoa | SEV‐69 |
| Ministerio de Economía y Competitividad | CGL2012‐40246‐C02‐01, CGL2017‐86924‐P |
| Agencia Española de Cooperación Internacional para el Desarrollo | AP/038788/11 |
| Pontifical Catholic University of Ecuador |
Keywords
- climate variability hypothesis
- CT
- elevation
- heat-invariant hypothesis
- thermal tolerance limits
- tropical mountains
- warming tolerance
