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- Title
Global effects of extreme temperatures on wild bumblebees.
- Authors
Martinet, Baptiste; Dellicour, Simon; Ghisbain, Guillaume; Przybyla, Kimberly; Zambra, Ella; Lecocq, Thomas; Boustani, Mira; Baghirov, Ruslan; Michez, Denis; Rasmont, Pierre
- Abstract
Finally, to investigate the relation between THS and the conservation status of the analyzed species (Nieto et al. 2014), we used the population trend estimation proposed by the International Union for Conservation of Nature (IUCN) to sort sampled species according to their IUCN population trend categories: unknown, decreasing, stable, and increasing. Integrative taxonomy of an arctic bumblebee species complex highlights a new cryptic species (Apidae: Bombus). Results Variability in Heat Stress Resistance of Bumblebees We measured THS for 2386 bumblebee males belonging to 39 species (Fig. Keywords: climate change; extreme events; pollinator decline; heat resistance; inter- and intraspecific variability; cambio climático; declinación de polinizadores; eventos extremos; resistencia al calor; variabilidad inter- e intraespecífica EN climate change extreme events pollinator decline heat resistance inter- and intraspecific variability cambio climático declinación de polinizadores eventos extremos resistencia al calor variabilidad inter- e intraespecífica 1507 1518 12 10/05/21 20211001 NES 211001 Introduction Since the turn of the 20th century, human activities have triggered global warming, resulting in an average temperature increase of 0.85 °C (Hance et al. 2007).
- Subjects
BUMBLEBEES; THERMAL tolerance (Physiology); TEMPERATURE effect; POLLINATORS; BIOLOGICAL classification; WHISKERS; BOMBUS terrestris; HEAT waves (Meteorology)
- Publication
Conservation Biology, 2021, Vol 35, Issue 5, p1507
- ISSN
0888-8892
- Publication type
Article
- DOI
10.1111/cobi.13685