Early resources lead to persistent benefits for bumble bee colony dynamics

Malfi, Rosemary; Crone, Elizabeth E.; Rundlöf, Maj; Williams, Neal M.

doi:10.1002/ecy.3560

Cited by 11 publications

(11 citation statements)

References 72 publications

(113 reference statements)

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“…Such increases in early-season resources are known to elevate colony growth and worker production (Malfi et al, 2021), but the availability of late-season resources may have a more direct impact on drone and gyne production (Rundlöf et al, 2014). This carry-over effect of early-season resource exploitation exhibited by B. impatiens, also seen with B. vosnesenskii (Malfi et al, 2021), may help explain the ability of this species to exploit modern agricultural and human-dominated landscapes in which resources are temporally heterogeneous. Despite total colony mass gain being significantly higher in continuous field colonies relative to pulse-field colonies, the difference in gyne production between them was not statistically evident.…”

Section: Discussionmentioning

confidence: 99%

“…This was evidenced by the observed increased foraging rates for field colonies near Phacelia. Such increases in early-season resources are known to elevate colony growth and worker production (Malfi et al, 2021), but the availability of late-season resources may have a more direct impact on drone and gyne production (Rundlöf et al, 2014). This carry-over effect of early-season resource exploitation exhibited by B. impatiens, also seen with B. vosnesenskii (Malfi et al, 2021), may help explain the ability of this species to exploit modern agricultural and human-dominated landscapes in which resources are temporally heterogeneous.…”

Section: Discussionmentioning

confidence: 99%

“…While laboratory studies can provide insights into the mechanisms driving colony responses to variable resource abundance, field experiments are needed to understand how colonies respond under more natural, free-foraging conditions where foraging energy expenditures factor into colony economics. To date, few studies address how variability in resources over time influences colony performance (but see Malfi et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

“…Because bumble bee colonies are long-lived, the continuous availability of flowers during colony establishment and growth is thought to be critical to colony success (Hemberger et al, 2020;Kevan & Baker, 1983;Schellhorn et al, 2015). For example, worker production in colonies of B. terrestris Linnaeus and B. vosnesenskii Radoszkowski are positively linked to early-season resource availability, suggesting that shortfalls in these resources could negatively impact growing colonies, limiting their ability to produce reproductive individuals (gynes) later in the season (Crone & Williams, 2016;Malfi et al, 2021;Westphal et al, 2009;Williams et al, 2012). Additionally, late-season mass-flowering crops benefit queen production in B. terrestris by eliminating a late-season resource gap (Rundlöf et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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Floral resource continuity boosts bumble bee colony performance relative to variable floral resources

Hemberger

Witynski

Gratton

2022

Ecological Entomology

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Centuries of landscape changes associated with agriculture have dramatically reduced the amount and increased the temporal variability of the floral resources that support key pollinating insects such as bumble bees. Adapting to these novel resource conditions is important to ensure the persistence of bumble bee species. While several species appear to be in decline in modern agricultural landscapes, others have thrived, suggesting adaptation to exploit highly variable floral resources. Bombus impatiens, the common eastern bumble bee, is a prime example of such a species. We designed an experiment to compare how free‐foraging colonies of B. impatiens performed adjacent to areas with either temporally continuous or variable (pulsed) patches of purple tansy (Phacelia tanacetifolia) plantings. We found that colonies in Phacelia landscapes grew faster, had gained more mass, and produced more gynes than did colonies in reference landscapes with no Phacelia. Comparing colony responses between pulsed and continuous flowering resources showed that total mass gain at the end of the experiment was greater with continuous flowering resources. In contrast, colony growth rate and total gyne production were comparable for colonies adjacent to Phacelia plantings that were continuous versus pulsed. While low in statistical replication, given the scale of the experimental manipulation, our experiment shows that although B. impatiens colonies can exploit periods of resource discontinuity and gain mass, these continuously available floral resources appear important for colony growth and benefit gyne production.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Floral resource continuity boosts bumble bee colony performance relative to variable floral resources

Hemberger

Witynski

Gratton

2022

Ecological Entomology

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“…For many species, minimal food stores may not bridge extended or back-to-back heatwaves resulting in resource shortfalls Malfi et al (2022). Second, bumblebees might adjust daily foraging windows to early and later in the day when temperatures are more aligned to their physiological constraints.…”

Section: Consequences Of Climate Changementioning

confidence: 99%

Experimental heatwaves disrupt bumblebee foraging through direct heat effects and reduced nectar production

2022

Self Cite

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1. Heatwaves are an increasingly common extreme weather event across the globe and are projected to surge in frequency and severity in the coming decades.Plant-pollinator mutualisms are vulnerable due to interacting effects of extreme heat on insect pollinator foraging behaviour and their forage plants.2. We designed an experiment to parse the impact of extreme heat on bumblebee foraging mediated directly through air temperature and indirectly through changes in plant rewards.3. Temperatures simulating a moderate heatwave negatively impacted foraging bumblebees reducing the proportion of successful foraging bouts, foraging bout duration and plant and flower visitation and indirect stress through reduced nectar production that limited foraging bout duration. 4. Our experimental results provide a mechanistic link between climate, plants and pollinators and suggest in situ conditions from heatwaves could have profound negative consequences for bumblebee colony persistence and maintenance of pollination services.

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Landscape‐scale floral resource discontinuity decreases bumble bee occurrence and alters community composition

Hemberger,

Bernauer,

Gaines‐Day

et al. 2023

Ecological Applications

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Agricultural practices and intensification over the past two centuries have dramatically altered the abundance and temporal continuity of floral resources that support pollinating insects such as bumble bees. Long‐term trends among bumble bees within agricultural regions suggest that intensive agricultural conditions have created inhospitable conditions for some species, while other species have maintained their relative abundances despite landscape‐level changes in flower availability. Bumble bee responses to spatiotemporal resource heterogeneity have been explored at the colony and behavioral level, but we have yet to understand whether these conditions drive community structure and ultimately explain the diverging patterns in long‐term species trends. To explore the relationship between landscape‐level floral resource continuity and the likelihood of bumble bee occurrence, we mapped the relative spatial and temporal availability of floral resources within an intensive agricultural region in the US Upper Midwest and related this resource availability with bumble bee species relative abundance. Across the bee community, we found that relative bumble bee occurrence increases in landscapes containing more abundant and more temporally continuous floral resources. Declining species, such as Bombus terricola, exhibited the strongest, positive responses to resource abundance and continuity whereas common, stable species, such as B. impatiens, showed no statistical relationship to either. Together with existing experimental evidence, this work suggests that efforts to increase spatiotemporal flower availability, along with overall flower abundance at landscape scales may have positive effects on bumble bee communities in the US Upper Midwest.This article is protected by copyright. All rights reserved.

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Early resources lead to persistent benefits for bumble bee colony dynamics

Cited by 11 publications

References 72 publications

Floral resource continuity boosts bumble bee colony performance relative to variable floral resources

Floral resource continuity boosts bumble bee colony performance relative to variable floral resources

Experimental heatwaves disrupt bumblebee foraging through direct heat effects and reduced nectar production

Landscape‐scale floral resource discontinuity decreases bumble bee occurrence and alters community composition

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