Abstract
Nonhuman primates, differently from humans, are less proficient at processing global properties of visual compound stimuli. It has been suggested that humans preferentially process stimuli globally because this enables a more economical encoding of the stimuli. In this study we assessed the role of short-term memory (STM) in global/local processing by presenting tufted capuchin monkeys with Navon-type hierarchical figures in both simultaneous and delayed matching-to-sample tasks. Capuchins' ability to discriminate hierarchical stimuli was evaluated as a function of increasing delay intervals (0.0, 0.5, 1.0, 2.0 and 3.0 sec) between the disappearance of the sample and the presentation of the comparison stimuli. The results showed that recognition accuracy for local features was above chance level with delays of up to 3.0 sec, as previously reported when capuchins were faced with nonhierarchical stimuli. By contrast, the recognition of global configurations was above chance level in simultaneous, 0.0 and 0.5 sec delay conditions but not at delay intervals of 1.0 sec or longer. These findings indicate that capuchins' propensity to process the local properties of visual stimuli can be observed when a delay is interposed between the presentation of sample and comparison stimuli and was not reversed by increasing the delay. Moreover, our results show that capuchins' local propensity was not reversed by increasing stimulus size. Overall, our study confirms crucial differences between human and nonhuman primates and adds new insights into the comparative research on visual grouping functions of these species. (PsycINFO Database Record
Highlights
In order to visually identify objects and segregate them from the background, we must be able to group their component elements into a coherent perceptual whole (Kimchi, Beherman & Olson, 2003)
Comparative research on global/local processing of hierarchical stimuli has been conducted on a number of non-human species including fish
This study demonstrated that capuchins monkeys are able to discriminate hierarchical figures in delayed matching-to-sample tasks when short delays are introduced, when they have to match the global configuration of the stimuli their MTS ability is compromised by delays of 1.0 sec or longer
Summary
In order to visually identify objects and segregate them from the background, we must be able to group their component elements into a coherent perceptual whole (Kimchi, Beherman & Olson, 2003). Many studies on visual grouping are focused on the ability to process hierarchical stimuli, i.e. small (local) shapes arranged to form large (global) shapes. By using these stimuli, Navon (1977) found that adult humans were faster at identifying global shapes than local features and proposed that the global properties of a visual object are processed first, followed by an analysis of local constituents (Navon, 1977, 1981). Global preference seems to decrease with the increase of either stimulus size
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