Bumble bees regulate their intake of essential protein and lipid pollen macronutrients
Bumble bees regulate their intake of essential protein and lipid pollen macronutrients
Bee population declines are linked to the reduction of nutritional resources due to land-use intensification, yet we know little about the specific nutritional needs of many bee species. Pollen provides bees with their primary source of protein and lipids, but nutritional quality varies widely among host-plant species. Therefore, bees might have adapted to assess resource quality and adjust their foraging behavior to balance nutrition from multiple food sources. We tested the ability of two bumble bee species, Bombus terrestris and Bombus impatiens, to regulate protein and lipid intake. We restricted B. terrestris adults to single synthetic diets varying in protein:lipid ratios (P:L). The bees over-ate protein on low-fat diets and over-ate lipid on high-fat diets to reach their targets of lipid and protein, respectively. The bees survived best on a 10:1 P:L diet; the risk of dying increased as a function of dietary lipid when bees ate diets with lipid contents greater than 5:1 P:L. Hypothesizing that the P:L intake target of adult worker bumble bees was between 25:1 and 5:1, we presented workers from both species with unbalanced but complementary paired diets to determine whether they self-select their diet to reach a specific intake target. Bees consumed similar amounts of proteins and lipids in each treatment and averaged a 14:1 P:L for B. terrestris and 12:1 P:L for B. impatiens. These results demonstrate that adult worker bumble bees likely select foods that provide them with a specific ratio of P:L. These P:L intake targets could affect pollen foraging in the field and help explain patterns of host-plant species choice by bumble bees.
Foraging behavior, Geometric framework, Nutrient regulation, Nutritional ecology, Pollination, Pollinator health
3962-3970
Vaudo, A. D.
fbb843e2-32dd-466d-a920-358c2fa2586d
Stabler, D.
b275ba93-2cd8-460a-b5dc-b527a268f351
Patch, H. M.
ef024c4a-36e8-40a3-8cf2-4cd40f819043
Tooker, J. F.
a1b2bd5e-6381-4dc2-8377-6b239926282c
Grozinger, C. M.
6454f230-b32b-466a-85fa-7047048d735f
Wright, G. A.
98c6aa2b-d857-4fb7-89db-76bd6af182cb
15 December 2016
Vaudo, A. D.
fbb843e2-32dd-466d-a920-358c2fa2586d
Stabler, D.
b275ba93-2cd8-460a-b5dc-b527a268f351
Patch, H. M.
ef024c4a-36e8-40a3-8cf2-4cd40f819043
Tooker, J. F.
a1b2bd5e-6381-4dc2-8377-6b239926282c
Grozinger, C. M.
6454f230-b32b-466a-85fa-7047048d735f
Wright, G. A.
98c6aa2b-d857-4fb7-89db-76bd6af182cb
Vaudo, A. D., Stabler, D., Patch, H. M., Tooker, J. F., Grozinger, C. M. and Wright, G. A.
(2016)
Bumble bees regulate their intake of essential protein and lipid pollen macronutrients.
Journal of Experimental Biology, 219 (24), .
(doi:10.1242/jeb.140772).
Abstract
Bee population declines are linked to the reduction of nutritional resources due to land-use intensification, yet we know little about the specific nutritional needs of many bee species. Pollen provides bees with their primary source of protein and lipids, but nutritional quality varies widely among host-plant species. Therefore, bees might have adapted to assess resource quality and adjust their foraging behavior to balance nutrition from multiple food sources. We tested the ability of two bumble bee species, Bombus terrestris and Bombus impatiens, to regulate protein and lipid intake. We restricted B. terrestris adults to single synthetic diets varying in protein:lipid ratios (P:L). The bees over-ate protein on low-fat diets and over-ate lipid on high-fat diets to reach their targets of lipid and protein, respectively. The bees survived best on a 10:1 P:L diet; the risk of dying increased as a function of dietary lipid when bees ate diets with lipid contents greater than 5:1 P:L. Hypothesizing that the P:L intake target of adult worker bumble bees was between 25:1 and 5:1, we presented workers from both species with unbalanced but complementary paired diets to determine whether they self-select their diet to reach a specific intake target. Bees consumed similar amounts of proteins and lipids in each treatment and averaged a 14:1 P:L for B. terrestris and 12:1 P:L for B. impatiens. These results demonstrate that adult worker bumble bees likely select foods that provide them with a specific ratio of P:L. These P:L intake targets could affect pollen foraging in the field and help explain patterns of host-plant species choice by bumble bees.
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Published date: 15 December 2016
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© 2016 Published by The Company of Biologists Ltd.
Keywords:
Foraging behavior, Geometric framework, Nutrient regulation, Nutritional ecology, Pollination, Pollinator health
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Local EPrints ID: 477084
URI: http://eprints.soton.ac.uk/id/eprint/477084
ISSN: 0022-0949
PURE UUID: 74de4b2e-d8d4-4342-87c1-735b734470e3
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Date deposited: 25 May 2023 16:49
Last modified: 17 Mar 2024 01:35
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Author:
A. D. Vaudo
Author:
D. Stabler
Author:
H. M. Patch
Author:
J. F. Tooker
Author:
C. M. Grozinger
Author:
G. A. Wright
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