AI Article Synopsis
- Understanding the dietary specialization of early European hominins is essential for examining the evolution of their craniofacial structure and dental wear from food processing methods.
- Previous research has largely centered on Neandertals, leaving a gap in knowledge about the dental wear of earlier hominins, particularly regarding their dietary behaviors.
- The study reveals that Homo antecessor had a unique microwear pattern indicating a diet rich in hard and brittle foods, suggesting these early hominins faced tough environmental conditions and had diets more mechanically demanding than later populations, which may have contributed to evolutionary changes in brain size.
Article Abstract
Hominin dietary specialization is crucial to understanding the evolutionary changes of craniofacial biomechanics and the interaction of food processing methods' effects on teeth. However, the diet-related dental wear processes of the earliest European hominins remain unknown because most of the academic attention has focused on Neandertals. Non-occlusal dental microwear provides direct evidence of the effect of chewed food particles on tooth enamel surfaces and reflects dietary signals over time. Here, we report for the first time the direct effect of dietary abrasiveness as evidenced by the buccal microwear patterns on the teeth of the Sima del Elefante-TE9 and Gran Dolina-TD6 Atapuerca hominins (1.2-0.8 million years ago - Myr) as compared with other Lower and Middle Pleistocene populations. A unique buccal microwear pattern that is found in Homo antecessor (0.96-0.8 Myr), a well-known cannibal species, indicates dietary practices that are consistent with the consumption of hard and brittle foods. Our findings confirm that the oldest European inhabitants ingested more mechanically-demanding diets than later populations because they were confronted with harsh, fluctuating environmental conditions. Furthermore, the influence of grit-laden food suggests that a high-quality meat diet from butchering processes could have fueled evolutionary changes in brain size.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5327419 | PMC |
| http://dx.doi.org/10.1038/srep43319 | DOI Listing |
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