Abstract
There is much debate on the dietary adaptations of the robust hominin lineages during the Pliocene-Pleistocene transition. It has been argued that the shift from C3 to C4 ecosystems in Africa was the main factor responsible for the robust dental and facial anatomical adaptations of Paranthropus taxa, which might be indicative of the consumption of fibrous, abrasive plant foods in open environments. However, occlusal dental microwear data fail to provide evidence of such dietary adaptations and are not consistent with isotopic evidence that supports greater C4 food intake for the robust clades than for the gracile australopithecines. We provide evidence from buccal dental microwear data that supports softer dietary habits than expected for P. aethiopicus and P. boisei based both on masticatory apomorphies and isotopic analyses. On one hand, striation densities on the buccal enamel surfaces of paranthropines teeth are low, resembling those of H. habilis and clearly differing from those observed on H. ergaster, which display higher scratch densities indicative of the consumption of a wide assortment of highly abrasive foodstuffs. Buccal dental microwear patterns are consistent with those previously described for occlusal enamel surfaces, suggesting that Paranthropus consumed much softer diets than previously presumed and thus calling into question a strict interpretation of isotopic evidence. On the other hand, the significantly high buccal scratch densities observed in the H. ergaster specimens are not consistent with a highly specialized, mostly carnivorous diet; instead, they support the consumption of a wide range of highly abrasive food items.
Highlights
The emergence of Paranthropus and Homo lineages in East Africa has been linked to an ecological shift toward C4 grasslands between 2.4 and 1.8 million years ago (Ma) caused by a marked global cooling and drying that resulted in contrasted year-round seasons and a variety
Average total striation density (NT) is smaller in Paranthropus aethiopicus (N = 7, NT = 94.9) and P. boisei (N = 10, NT = 105.9) than in H. habilis (N = 10, NT = 122.3) and H. ergaster (N = 6, NT = 181.8). Both Paranthropus taxa show larger average striation lengths (XT) than the Homo taxa (Table 3, Fig 3), there were no significant differences in striation density or length between the four groups (MANOVA Wilks' lambda = 0.401; F = 0.994; P = 0.486)
The linear discriminant analysis (LDA) of the four hominin groups studied (P. aethiopicus, P. boisei, H. habilis, H. ergaster) was able to correctly classify 51.5% of all cases, that ability diminishes to only 24.2% after jack-knife cross-validation
Summary
Buccal Dental Microwear of East African Hominines of ecological scenarios with great spatial heterogeneity and ecological instability [1,2,3,4,5,6] Remains of both Paranthropus boisei and early Homo have been associated with both well-watered, riverine habitats with gallery forest and woodlands in older localities and with extensive dry grasslands with episodes of lake fluctuations or, more recently, deltaic conditions. This habitat shift is assumed to have forced hominines to adopt a more intense exploitation of savanna plant foods, including underground storage organs (USOs). In Homo habilis, the dental reduction that characterizes more recent humans was not fully attained [30,31]
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