Bees in two-armed bandit situations: foraging choices and possible decision mechanisms

doi:10.1093/beheco/13.6.757

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Behavioral Ecology Vol. 13 No. 6: 757-765
© 2002 International Society for Behavioral Ecology

Bees in two-armed bandit situations: foraging choices and possible decision mechanisms

Tamar Keasar^a, Ella Rashkovich^b, Dan Cohen^c and Avi Shmida^c

^{^a} Department of Life Sciences, Ben Gurion University, Beer Sheva, and Achva College, Mobile Post Shikmim 79800, Israel ^{^b} QBI Ltd., Ness Ziona, Israel ^{^c} Department of Evolution, Systematics and Ecology and Center for Rationality and Interactive Decision Theory, The Hebrew University, Jerusalem, Israel

Address correspondence to T. Keasar, Department of Life Sciences, Ben Gurion University, PO Box 653, Beer Sheva 84105, Israel. E-mail: tkeasar{at}bgumail.bgu.ac.il.

In multi-armed bandit situations, gamblers must choose repeatedlybetween options that differ in reward probability, withoutprior information on the options' relative profitability. Foragingbumblebees encounter similar situations when choosing repeatedlyamong flower species that differ in food rewards. Unlike proficientgamblers, bumblebees do not choose the highest-rewarding optionexclusively. This incomplete exclusiveness may reflect an adaptivesampling strategy. A cost—benefit analysis predicts decreasedsampling levels with increasing differences in mean profitability between the available food sources. We simulated two-armed banditsituations in laboratory experiments to test this prediction.Bumblebees (Bombus terrestris L.) made 300 foraging visitsto blue and yellow artificial flowers that dispensed sucrosesolution according to seven probabilistic reward schedules.Reward schedules varied in profitability differences between the two feeding options. As predicted, the bees specializedmore on the higher-rewarding food type (and thus sampled thealternative less) when the mean reward difference between thefeeding options was larger. Choice ratios of individual beeswere linearly related to the reward ratios they had experienced.It has been suggested that the behavioral mechanism underlying incomplete exclusiveness may involve simple rules of thumb thatdo not require long-term memory. However, the bees' responseto recent foraging experience (rewarded and non-rewarded visits)differed between the beginning and the end of observation sessionsand between treatments. Simulations of the Rescorla-Wagnerdifference learning rule reproduced the main trends of the results. These findings suggest that the observed incompleteexclusiveness results from associative learning involving long-termmemory.

Key words: bees, foraging, learning, probability matching, two-armed bandit.

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