Extreme polyandry improves a honey bee colony’s ability to track dynamic foraging opportunities via greater activity of inspecting bees

We explored the worker-level interactions that enhance the organization of foraging in honey bee colonies with extremely polyandrous queens by determining whether a colony’s patriline number affects the activity of its inspectors (foragers who visit a previously utilized food source to see if it is...

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Veröffentlicht in:	Apidologie 2014, Vol.45 (3), p.347-363
Hauptverfasser:	Mattila, Heather R, Seeley, Thomas D
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural sciences Animal biology Animal production studies Apoidea Biodiversity Biomedical and Life Sciences Ecology, environment Entomology foraging honey bee colonies Invertebrate Zoology Life Sciences Original Article polyandry queen honey bees recruitment sucrose
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container_title	Apidologie
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creator	Mattila, Heather R Seeley, Thomas D
description	We explored the worker-level interactions that enhance the organization of foraging in honey bee colonies with extremely polyandrous queens by determining whether a colony’s patriline number affects the activity of its inspectors (foragers who visit a previously utilized food source to see if it is profitable again). We monitored the use of sucrose feeders by foragers in free-flying colonies that had either multiple patrilines or a single patriline as the feeders were sequentially stocked, emptied, and then restocked. Multiple-patriline colonies tended to have more inspectors than single-patriline colonies, their inspectors inspected their feeder at higher rates when it was empty, and then foraged at higher rates and performed more waggle runs when it was restocked, which quadrupled feeder recruitment. The patriline profile for a colony’s inspectors consistently differed from that of its general population. We show clear ergonomic benefits of extreme polyandry for honey bee queens and their colonies.
doi_str_mv	10.1007/s13592-013-0252-3
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subjects	Agricultural sciences Animal biology Animal production studies Apoidea Biodiversity Biomedical and Life Sciences Ecology, environment Entomology foraging honey bee colonies Invertebrate Zoology Life Sciences Original Article polyandry queen honey bees recruitment sucrose
title	Extreme polyandry improves a honey bee colony’s ability to track dynamic foraging opportunities via greater activity of inspecting bees
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