Bumble bee niche overlap along an elevation gradient: how traits can inform novel competitive pressures under climate change.

Abstract: Climate change-induced range shifts can disrupt interactions between species by moving them in and out of ecological communities. These disruptions can include impacts on competition for shared resources. Bumble bees (Bombus spp.) are important pollinators shifting their range upwards in elevation in response to climate change. These shifts could lead to altered competition between species and threaten co-existence. These impacts are particularly worrying at the tops of mountains where bumble bees are “trapped… Show more

“…Considering that present-day comparisons across elevations can provide insight into the effects of warming over time, this result is in contrast with prior studies suggesting climate change may lead to homogenization of functional traits within bumblebee communities (Pradervand et al 2014). The convergence of body size and other functional traits at high elevation might lead to increased competition for resources among bumblebee species with similar size optima, potentially resulting in reduced niche differentiation and altering community dynamics (Barthell & Resasco 2023). Our results suggest that warmer climates, i.e., those experienced at the low elevation site, may support a higher variation in interspecific body size and could promote a more diverse and resilient community.…”

Species-specific differences in bumblebee worker body size between different elevations: Implications for pollinator community structure under climate change

“…Considering that present-day comparisons across elevations can provide insight into the effects of warming over time, this result is in contrast with prior studies suggesting climate change may lead to homogenization of functional traits within bumblebee communities (Pradervand et al 2014). The convergence of body size and other functional traits at high elevation might lead to increased competition for resources among bumblebee species with similar size optima, potentially resulting in reduced niche differentiation and altering community dynamics (Barthell & Resasco 2023). Our results suggest that warmer climates, i.e., those experienced at the low elevation site, may support a higher variation in interspecific body size and could promote a more diverse and resilient community.…”

Species-specific differences in bumblebee worker body size between different elevations: Implications for pollinator community structure under climate change