Global effects of extreme temperatures on wild bumblebees

Martinet, Baptiste; Dellicour, Simon; Ghisbain, Guillaume; Przybyla, Kimberly; Zambra, Ella; Lecocq, Thomas; Boustani, Mira; Baghirov, R.T-o.; Michez, Denis; Rasmont, Pierre

doi:10.1111/cobi.13685

Cited by 71 publications

(87 citation statements)

References 65 publications

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“…For several years, many studies have explored effects of microbiota, diet, temperature, and pesticide exposure on bumblebee's health in lab conditions (Gill and Raine, 2014;Vanderplanck et al, 2019;Barraud et al, 2020;Rothman et al, 2020;Maebe et al, 2021a;Oyen et al, 2021). However, most of these studies used commercially available bumblebee species (i.e., Bombus impatiens in North America and B. terrestris in Europe, and Bombus hypocrita in Asia) which are known to be tolerant and resistant to environmental changes (Oyen and Dillon, 2018;Maebe et al, 2021b;Martinet et al, 2021a). Limiting studies to reared species may bias our overall view of the adaptive response of bumblebees to decline factors as these species are selected throughout this rearing process.…”

Section: Discussionmentioning

confidence: 99%

“…We used the buff-tailed bumblebee (B. terrestris) as a model species even though it is considered a resistant species (Martinet et al, 2021a) because it is easy to manage and available all year. Colonies were bought at Biobest NV (Westerlo, Belgium).…”

Section: Model Species and Breeding Parametersmentioning

confidence: 99%

“…As a model species, we used Bombus terrestris, a Euro-Mediterranean species domesticated for crop pollination (Rasmont et al, 2008). This species is highly tolerant to environmental changes and is expanding globally (Inari et al, 2005;Torretta et al, 2006;Rasmont et al, 2015;Martinet et al, 2021a). It has previously been shown that for this heat-tolerant species, no effect of heat exposure was observed on sperm viability, sperm DNA integrity and composition of the attractive secretions of males (Martinet et al, 2021b).…”

Section: Introductionmentioning

confidence: 99%

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Effects of Heat Stress on Mating Behavior and Colony Development in Bombus terrestris (Hymenoptera: Apidae)

et al. 2021

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Climate change is related to an increase in the frequency and intensity of extreme events such as heatwaves. In insect pollinators, heat exposure is associated with direct physiological perturbations, and in several species, could lead to a decrease of fitness related to a decrease in fertility. Here we developed a new experimental protocol in controlled conditions to assess if the exposure to high temperatures could modify the attractiveness and fertility of Bombus terrestris males. Our results show that virgin queens of B. terrestris do not have preferences between the pheromonal secretions of heat-exposed and control males. Moreover, mating with a heat-exposed male has no impact on the copulation behavior and the development of the nest (brood composition). We advise to extend trials to cover a range of wild and heat-sensitive species on multiple generations to better understand the impact of heat waves on the bumblebee communities.

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Section: Discussionmentioning

confidence: 99%

Section: Model Species and Breeding Parametersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of Heat Stress on Mating Behavior and Colony Development in Bombus terrestris (Hymenoptera: Apidae)

et al. 2021

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“…Additionally, range expansion in B . haematurus seems to indicate an ability to track suitable climate conditions (Biella et al, 2020) but is also likely associated with a high tolerance for temperature extremes (Martinet, Dellicour et al, 2021).…”

Section: Dispersal Vs Adaptationmentioning

confidence: 99%

Bumblebee resilience to climate change, through plastic and adaptive responses

Maebe

Hart

Marshall

et al. 2021

Global Change Biology

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Bumblebees are ubiquitous, cold‐adapted eusocial bees found worldwide from subarctic to tropical regions of the world. They are key pollinators in most temperate and boreal ecosystems, and both wild and managed populations are significant contributors to agricultural pollination services. Despite their broad ecological niche at the genus level, bumblebee species are threatened by climate change, particularly by rising average temperatures, intensifying seasonality and the increasing frequency of extreme weather events. While some temperature extremes may be offset at the individual or colony level through temperature regulation, most bumblebees are expected to exhibit specific plastic responses, selection in various key traits, and/or range contractions under even the mildest climate change. In this review, we provide an in‐depth and up‐to‐date review on the various ways by which bumblebees overcome the threats associated with current and future global change. We use examples relevant to the fields of bumblebee physiology, morphology, behaviour, phenology, and dispersal to illustrate and discuss the contours of this new theoretical framework. Furthermore, we speculate on the extent to which adaptive responses to climate change may be influenced by bumblebees’ capacity to disperse and track suitable climate conditions. Closing the knowledge gap and improving our understanding of bumblebees’ adaptability or avoidance behaviour to different climatic circumstances will be necessary to improve current species climate response models. These models are essential to make correct predictions of species vulnerability in the face of future climate change and human‐induced environmental changes to unfold appropriate future conservation strategies.

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“…Insect farming can face these changes thanks to species intrinsic features such as large climatic tolerance or generalist diet. In the context of global changes, the ability to cope with environmental changes is thus a valuable information that should be considered early in the process, during the assessment of candidate species domestication potential (see examples of species-specific responses to climate change or abiotic parameters between closely related species in ( Oyen et al, 2016 ; Martinet et al, 2020 ).…”

Section: Going Further In the Domestication Process: The Wise Waymentioning

confidence: 99%