Consistent pollen nutritional intake drives bumble bee (Bombus impatiens) colony growth and reproduction across different habitats

Foraging behavior is a critical adaptation by insects to obtain appropriate nutrients from the environment for development and fitness. Bumble bees (Bombus spp.) form annual colonies which must rapidly increase their worker populations to support rearing reproductive individuals before the end of th...

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Bibliographic Details
Published in:Ecology and evolution 2018-06, Vol.8 (11), p.5765-5776
Main Authors: Vaudo, Anthony D., Farrell, Liam M., Patch, Harland M., Grozinger, Christina M., Tooker, John F.
Format: Article
Language:English
Subjects:
Abundance
Bees
Bombus impatiens
Colonies
colony development
colony reproduction
Fitness
Flowers & plants
Foraging behavior
Foraging habitats
foraging preferences
Forests
Habitats
Influence
Insects
Laboratories
Landscape
Nutrients
Nutrition
nutritional ecology
Original Research
Plant communities
Plant populations
Pollen
pollen quality
pollination
Proteins
Quality
Reproduction
Reproductive fitness
Sugar
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Summary:Foraging behavior is a critical adaptation by insects to obtain appropriate nutrients from the environment for development and fitness. Bumble bees (Bombus spp.) form annual colonies which must rapidly increase their worker populations to support rearing reproductive individuals before the end of the season. Therefore, colony growth and reproduction should be dependent on the quality and quantity of pollen resources in the surrounding landscape. Our previous research found that B. impatiens foraging preferences to different plant species were shaped by pollen protein:lipid nutritional ratios (P:L), with foragers preferring pollen species with a ~5:1 P:L ratio. In this study, we placed B. impatiens colonies in three different habitats (forest, forest edge, and valley) to determine whether pollen nutritional quality collected by the colonies differed between areas that may differ in resource abundance and diversity. We found that habitat did not influence the collected pollen nutritional quality, with colonies in all three habitats collecting pollen averaging a 4:1 P:L ratio. Furthermore, there was no difference in the nutritional quality of the pollen collected by colonies that successfully reared reproductives and those that did not. We found however, that “nutritional intake,” calculated as the colony‐level intake rate of nutrient quantities (protein, lipid, and sugar), was strongly related to colony growth and reproductive output. Therefore, we conclude that B. impatiens colony performance is a function of the abundance of nutritionally appropriate floral resources in the surrounding landscape. Because we did not comprehensively evaluate the nutrition provided by the plant communities in each habitat, it remains to be determined how B. impatiens polylectic foraging strategies helps them select among the available pollen nutritional landscape in a variety of plant communities to obtain a balance of key macronutrients. Bumble bee (Bombus impatiens) colonies in the field collected similar pollen protein, lipid, and carbohydrate macronutrient values across different habitats, including consistent protein:lipid ratios that they preferred in previous controlled experiments. Nutritional intake, a metric quantifying the rate of macronutrients collected by foragers on an hourly basis, was highly predictive of bumble bee colony growth and reproductive output. We conclude that B. impatiens colony performance is a function of the abundance of nutritionally appropria
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.4115