The genus Cebus is one of the best extant models for examining the role of fallback foods in primate evolution. Cebus includes the tufted capuchins, which exhibit skeletal features for the exploitation of hard and tough foods. Paradoxically, these seemingly "specialized" taxa belong to the most ubiquitous group of closely related primates in South America, thriving in a range of different habitats. This appears to be a consequence of their ability to exploit obdurate fallback foods. Here we compare the toughness of foods exploited by two tufted capuchin species at two ecologically distinct sites; C. apella in a tropical rainforest, and C. libidinosus in a cerrado forest. We include dietary data for one untufted species (C. olivaceus) to assess the degree of difference between the tufted species. These data, along with information on skeletal morphology, are used to address whether or not a fallback foraging species exhibits a given suite of morphological and behavioral attributes, regardless of habitat. Both tufted species ingest and masticate a number of exceedingly tough plant tissues that appear to be used as fallback resources, however, C. libidinosus has the toughest diet both in terms of median and maximal values. Morphologically, C. libidinosus is intermediate in absolute symphyseal and mandibular measurements, and in measures of postcranial robusticity, but exhibits a higher intermembral index than C. apella. We propose that this incongruence between dietary toughness and skeletal morphology is the consequence of C. libidinosus' use of tools while on the ground for the exploitation of fallback foods.
This study is a comparison of locomotor behavior and postcranial form in two species of capuchin monkey, the brown capuchin (Cebus apella), and the weeper capuchin (Cebus olivaceus). Behavioral data from groups of wild C. apella and C. olivaceus in Guyana were collected during the period of December 1999 through November 2000. Postcranial variables including 40 measurements and three indices were taken from 43 adult and subadult specimens of C. apella and 14 adult and subadult specimens of C. olivaceus housed in American museums, as well as two wild-caught adult specimens of C. olivaceus from the Georgetown Zoo in Guyana. The results of this study indicate that these two capuchins exhibit similar patterns of locomotor behavior, but that there are important differences in how they move through their homerange, particularly with respect to quadrupedalism. These differences in behavior are reflected in their postcranial morphology and can be related to differences in foraging strategies. This study provides an example of the importance of using more exclusive categories of quadrupedal behaviors when comparing closely related arboreal quadrupeds, as well as an alternative explanation for some of the postcranial features of C. apella that may relate to foraging postures and foraging strategy rather than traditionally categorized patterns of locomotor behavior.
The biomechanical and adaptive significance of variation in craniodental and mandibular morphology in fossil hominins is not always clear, at least in part because of a poor understanding of how different feeding behaviors impact feeding system design (form–function relationships). While laboratory studies suggest that ingestive behaviors produce variable loading, stress, and strain regimes in the cranium and mandible, understanding the relative importance of these behaviors for feeding system design requires data on their use in wild populations. Here we assess the frequencies and durations of manual, ingestive, and masticatory behaviors from more than 1400 observations of feeding behaviors video-recorded in a wild population of bearded capuchins (Sapajus libidinosus) at Fazenda Boa Vista in Piauí, Brazil. Our results suggest that ingestive behaviors in wild Sapajus libidinosus were used for a range of food material properties and typically performed using the anterior dentition. Coupled with previous laboratory work indicating that ingestive behaviors are associated with higher mandibular strain magnitudes than mastication, these results suggest that ingestive behaviors may play an important role in craniodental and mandibular design in capuchins and may be reflected in robust adaptations in fossil hominins.
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