Abstract

SYNOPSIS. Thermoregulation of Elevated Thorax Temperatures is Necessary for Bees to Achieve the High Rates of Power Production Required for Flight and is a Key Factor Allowing Them to Occupy Widely Varying Thermal Environments. However, the Mechanisms by Which Bees Thermoregulate during Flight Are Poorly Understood. Thermoregulation is Accomplished by Balancing Heat Gain and Heat Loss Via the Following Routes: Convection, Evaporation, and Metabolic Heat Production. There Appears to Be a Diversity of Thermoregulatory Mechanisms Employed during Flight among Bee Species. Some Species, Particularly Bambus Spp., Actively Increase the Distribution of Thoracic Heat to the Abdomen during Flight as Air Temperature (Ta) Rises, and Apparently Thermoregulate by Varying Convective Heat Loss. However, Thermal Variation in Convection Has Not Been Directly Measured for Any Free-Flying Bee. above 33°C, Flying Apis Mellifera Greatly Increase Evaporative Heat Loss with Ta, and Many Other Species "Tongue-Lash" during Flight at High Tas or When Artificially Heated. Thus, Evaporation Seems to Be Important for Preventing overheating during Flight at Very High Tas. Flying A. Mellifera and Centris Pallida Strongly Decrease Metabolic Rate as Ta Increases, suggesting that They Are Varying Metabolic Heat Production for Thermoregulation and Not Aerodynamic Requirements. Variation in Metabolic Heat Production Appears to Be Mediated by Changes in Wingbeat Kinematics, Since Wingbeat Frequency Decreases with Ta for A. Mellifera and Centris Spp. It is Unknown If the Decrease in Flight Metabolic Rate at Higher Tas Occurs Secondarily as a Consequence of Greater Efficiency or If It is Truly an Active Response.

Department(s)

Biological Sciences

International Standard Serial Number (ISSN)

0003-1569

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2023 Oxford Academy, All rights reserved.

Publication Date

01 Jan 1998

Included in

Entomology Commons

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