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Integrative and Comparative Biology Advance Access published online on October 5, 2006
Integrative and Comparative Biology, doi:10.1093/icb/icl046
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© The Author 2006. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved. For permissions please email: journals.permissions@oxfordjournals.org.

Ecophysiology and Conservation: The Contributions of Energetics

Environmental physiology of the invasion of the Americas by Africanized honeybees

Jon F. Harrison 1 *, Jennifer H. Fewell 1, Kirk E. Anderson 1, and Gerald M. Loper 2
1 School of Life Sciences, Arizona State University, Tempe, AZ 85287-4501, USA
2 USDA-ARS, Carl Hayden Bee Research Center, 2000 E. Allen Road, Tucson, AZ 85719, USA

* To whom correspondence should be addressed.
Jon F. Harrison, E-mail: J.Harrison{at}asu.edu


  Abstract

Synopsis The expansion of Africanized honeybees (AHB) through the Americas has been one of the most spectacular and best-studied invasions by a biotype. African and European honeybees (EHB) hybridize, but with time, tropical and subtropical American environments have become dominated by AHB that exhibit only 20-35% genetic contribution from western European bees, and a predominance of African behavioral and physiological traits. EHB persist in temperate environments. Clines between AHB and EHB exist in ecotones of South and Central America, and are forming in North America. What individual-level genetic, behavioral and physiological traits determine the relative success of the AHB as an invader in the neotropics, and of the EHB in temperate areas? Preference for pollen versus nectar may be an important trait mediating these ecological trade-offs, as preference for pollen enhances nutrient intake and brood production for the AHB in the tropics, while a relative preference for nectar enhances honey stores and winter survival for EHB. AHB exhibit morphological (higher thorax-to-body mass ratios) and physiological (higher thorax-specific metabolic rates) traits that may improve flight capacity, dispersal, mating success and foraging intake. Enhanced winter longevity, linked with higher hemolymph vitellogenin levels, may be a key factor improving winter survival of EHB. Data from South America and distributions of AHB in the southwestern United States suggest that AHB-EHB hybrids will extend 200 km north of regions with a January maximal temperatures of 15-16°C. The formation of biotypic clines between AHB and EHB represents a unique opportunity to examine mechanisms responsible for the range limit of invaders.

From the symposium "Ecophysiology and Conservation: The Contributions of Energetics" presented at the annual meeting of the Society for Integrative and Comparative Biology, January 4-8, 2006, at Orlando, Florida.
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