Flight of the honey bee |
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Authors: | U Rothe W Nachtigall |
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Institution: | (1) Arbeitsgruppe Nachtigall, Zoologisches Institut, Universität des Saarlandes, D-6600 Saarbrücken, Germany |
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Abstract: | Summary Using manometric and gas analytical methods oxygen consumption
, carbon dioxide production
, respiratory quotientRQ, (Fig. 1A-C) and thorax surface temperature difference T
ts (Fig. 3) were determined in single bees. The animals were either sitting in respiratory chambers or were suspended by the scutum, in which case they were resting, walking (turning a small polystyrene ball) or flying in a closed miniature wind tunnel.During resting (sitting in Warburg vessels) at an ambient temperatureT
a=10°C,RQ was 1.01±0.2 (n=905) with variations due to method (Fig. 1D, E).RQ values during walking were determined in single cases. In no case were they significantly different from 1.00. After the first 10 min of flight meanRQ was 1.00±0.04. It was significantly smaller than 1.00 (RQ=0.97) only during the last 5% of long-time flights (mean flight duration 58.8±28.8 min). With the exception of near-exhaustion conditions no signs of fuels other than carbohydrates were found.Metabolic rateP
m was 19.71±21.38 mW g–1 during resting at 20°C T
a 30°C indicating that many resting bees actively thermoregulate at higherT
a. After excluding bees which were actively thermoregulating, by an approximationP
m was 5.65±2.44 mW g–1 at 20°C T
a 30°C. True resting metabolic rate for sitting bees atT
a=10°C was 1.31±0.53 mW g–1 (Fig. 2A, B).A significant negative correlation was found between relative (specific) oxygen consumption
rel and body massM
b at 85 mg M
b 150 mg.At 0°C T
ts 16.5°C a significant ( -0.01) positive correlation was found between
and T
ts in single resting bees:
T
Ts+0.099, or betweenP
m and T
ts:P
m=1.343 T
ts+0.581 (Fig. 3D)
in ml h–1,P
m in mW,T in °C).During walking (duration 13.15±5.71 min,n=13) at 12.5°C T
a 21°C a stable T
ts of 11.41±3.37°C, corresponding to 167 mW g–1, was reached for 80 to 90% of the walking time (Fig. 4B).During wind tunnel flights of tethered animals the minimal metabolic power measured in exhaustion experiments was 240 mW g–1. Calculation of factors of increase inP
m is of limited value in poikilotherms, in which true resting conditions are not exactly defined. |
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Keywords: | |
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