Madden, G. J., Peden, B. F., & Yamaguchi, T. (2002).
Human group choice: Discrete-trial and free- operant tests of the ideal free distribution.
Journal of the Experimental Analysis of Behavior,
78, 1-15.
Ideal free distribution theory predicts that foragers will form
groups proportional in number to the resources available in
alternative resource sites or patches, a phenomenon termed
habitat matching. Three experiments tested this prediction with
college students in discrete-trial simulations and a free-operant
simulation. Sensitivity to differences in programmed
reinforcement rates was quantified by using the sensitivity
parameter of the generalized matching law (s). The first
experiment, replicating prior published experiments, produced a
greater degree of undermatching for the initial choice (s
= 0.59) compared to final choices (s = 0.86). The second
experiment, which extended prior findings by allowing only one
choice per trial, produced comparable undermatching (s =
0.82). The third experiment used free-operant procedures more
typical of laboratory studies of habitat matching with other
species and produced the most undermatching (s = 0.71).
The results of these experiments replicated previous results with
human groups, supported predictions of the ideal free
distribution, and suggested that undermatching represents a
systematic deviation from the ideal free distribution. These
results are consistent with a melioration account of individual
behavior as the basis for group choice.
Key words: group choice, ideal free distribution, matching law,
melioration, humans