Abstract
Foraging in seasonal environments can be cognitively challenging. Comparative studies have associated brain size with a frugivorous diet. We investigated how fruit distribution (where) and preference (what) affect foraging decisions in three semi-free ranging primate species with different degrees of frugivory: Macaca tonkeana (Nindiv = 5; Ntrials = 430), M. fascicularis (Nindiv = 3; Ntrials = 168) and Sapajus apella (Nindiv = 6; Ntrials = 288). We used 36 boxes fixed on trees and filled with highly and less preferred fruits with different (weekly) spatio-temporal distributions. Individuals were tested in two conditions: (1) same fruit provided concurrently in the same quantity but in a scattered and in a clumped distribution, (2) highly preferred fruit was scattered while the less preferred was clumped. Generally, primates preferred feeding first on the boxes of the clumped distribution in both conditions, with the more frugivorous species at a higher degree than the less frugivorous species in condition (1), but not (2). Therefore, what fruit was available changed the foraging decisions of the more frugivorous species who also engaged more in goal-directed travel. When feeding on preferred fruit, primates probably maximized foraging efficiency regardless of their degree of frugivory. Our findings emphasize that the food type and distribution may be a preponderant driver in cognitive evolution.
Highlights
Wild animals face decisive challenges to access vital resources
We studied three primate species living in social groups of 26 Macaca tonkeana, 17 M. fascicularis (July–October 2017) and 17 S. apella (May–September 2017), all captive-born
We investigated spatial memory ability, related to spatial food distribution, since each task/season lasted five days during which subjects were tested twice per day
Summary
Difficulties involved in finding food vary depending on qualities such as a heterogeneous distribution and/or transient availability (e.g. African elephants [1]), a potentially demanding capture effort (e.g. goshawks [2]), and/or competitors feeding on the same resource (e.g. fish [3]; salamanders [4]). Food resources are patchy and variable in space and time, in seasonal environments (e.g. bats [6]; primates [7]). The integration of salient cues with spatial information can be crucial to adjust travel and optimize foraging according to the quality (what), distribution and density (where) of the food available, in seasonal environments (when)
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