Abstract

Cognitive bias tests are frequently used to assess affective state in nonhumans. We adapted the ambiguous-cue paradigm to assess affective states and to compare learning of reward associations in two distantly related species, an American black bear and three Western lowland gorillas. Subjects were presented with three training stimuli: one that was always rewarded (P), one that was never rewarded (N) and one that was ambiguous (A) because its reward association depended on whether it had been paired with P (PA pairing) or N (NA pairing). Differential learning of NA and PA pairs provided insight into affective state as the bear and one gorilla learned NA pairs more readily, indicating that they focused on cues of reinforcement more than cues of non-reinforcement, whereas the opposite was true of one gorilla. A third gorilla did not learn either pairings at above chance levels. Although all subjects experienced difficulty learning the pairings, we were able to assess responses to A during probe trials in the bear and one gorilla. Both responded optimistically, but it was difficult to determine whether their responses were a true reflection of affective state or were due to preferences for specific stimuli.

Highlights

  • The ambiguous-cue paradigm (ACP) was originally developed to assess mechanisms underlying learning [1,2], but can be adapted to assess emotional states in nonhumans (e.g., [3])

  • We extended training of the ambiguous cue paradigm in the gorillas (Gorilla gorilla gorilla) and applied the same paradigm to cognitive bias assessments in an American black bear (Ursus americanus)

  • Binomial tests of Migwan’s last 10 sessions indicated that Migwan performed above chance (50%) on the NA pairing (N = 40, M = 0.98, SD = 0.158, p < 0.001), but that she performed significantly below chance on the PA pairing during the summer phase (N = 40, M = 0.23, SD = 0.423, p < 0.001)

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Summary

Introduction

The ambiguous-cue paradigm (ACP) was originally developed to assess mechanisms underlying learning [1,2], but can be adapted to assess emotional states in nonhumans (e.g., [3]). Many species have demonstrated better learning of the NA compared to the PA pairing (e.g., children and the mentally disabled [5]; rhesus monkeys (Macaca mulatta) [6,7,8]; pigeons (Columba livia domestica) [9,10]; European starlings (Sturnus vulgaris) [11]), rhesus monkeys have displayed superior learning on PA trials [6,7,12], as have chimpanzees (Pan troglodytes, [2]), and pigeons [9]. These different patterns of learning may be informative both in terms of learning strategy and cognitive biases, which may relate to affective disposition

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