H. Esch et al., HONEYBEE WAGGLE DANCES - THE ENERGY HYPOTHESIS AND THERMOREGULATORY BEHAVIOR OF FORAGERS, Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology, 163(8), 1994, pp. 621-625
Honeybees were trained to visit artificial feeding sites containing a
2 mol . l-1 sucrose solution. To reach the feeder they either had to w
alk through 3 m of Teflon tube, or fly 20 m or 65 m and then walk thro
ugh 3 m of tube. Only individuals that flew at least 65 m performed wa
ggle dances. The distance indicated in these waggle dances, judged by
the number of wagging movements per wagrun, was the same regardless of
whether individuals had to run an additional 3 m of tube after flight
or not. The energy needed during walking after flight was determined
by measuring 02 consumption. All individuals attempted to regulate the
ir body temperatures between 36 and 42-degrees-C during walking and fe
eding (02 consumption = 40 mul . min-1 per bee). Calculations show tha
t this walking through 3 m of tube requires as much energy as flying 1
28 m (difference between thoracic and ambient temperature = 15-degrees
-C). This energy expenditure was not reflected in the dances. The resu
lts do not support the hypothesis that honeybees estimate feeding site
distances by measuring the energy required to reach a feeder.