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Ledogar, Justin
- PublicationMorphology, Biomechanics and Diet in Anthropoidea (Primates)(2019-03-11)
;Luk, Hiu Ying; ; ;Sherratt, EmmaIn recent years there have been an increasing number of studies investigating the relationship between diet preference, skull shape and biomechanics of primates. Understanding the relationship between morphological and mechanical variations and extrinsic factors, such as diet and feeding behaviour, provides insights into the evolution of our own species. However, most diet-related morphological studies have focused on the mandibles and dentition, while most biomechanical studies have concentrated on species that either feed on mechanically challenging foods (hard-object feeders) or are mechanically challenged during food acquiring (e.g., tree-gouging exudate feeders). These mechanical studies are usually small scale with only a few species and there is a lack more comprehensive comparisons. Studies on the relationship between cranial shape and biomechanical performances in primates are also limited. In the present study, whether cranial morphology and/or mechanical performance reflect dietary preferences were examined in Anthropoidea, which is a clade of primates that includes all the New World and Old World monkeys. It was hypothesised that cranial shape and its mechanical behaviour reflect diet regardless of phylogeny and cranial size.
Three-dimensional geometric morphometrics was used to investigate the relationship between cranial shape and diet. Finite element analysis was used to assess the mechanical performance in the anthropoid crania during premolar, molar, and incisor loadings. Von Mises strain magnitudes and distributions were used to determine the ability to withstand high bite forces. Mechanical advantages were calculated as the ratio of bite force per muscle force. Results showed that diet had very limited influence on cranial morphology. New World monkeys generally exhibited a stronger correlation between diet and cranial shape than Old World monkeys. This suggested that cranial morphology in primates was not the sole result of dietary selection. Variations of strain magnitudes were also found to be mostly insignificant with diet. However, results showed that mechanical advantages were a better predictor of diet preference, especially for species that require higher bite forces during feeding. Hard food feeders were more mechanically efficient at producing high premolar and molar bites compared to other dietary groups. Exudate feeders were also relatively efficient at producing high bite forces at the incisors. While cranial morphology was found to have limited correlation with diet, there was a strong relationship between cranial shape and mechanical advantage. This result indicated that mechanical advantage can be achieved by different combinations of craniofacial features.
- PublicationThe biomechanics of foraging determines face length among kangaroos and their relatives(The Royal Society Publishing, 2018-06-27)
; ;Sherratt, Emma; Increasing body size is accompanied by facial elongation across a number of mammalian taxa. This trend forms the basis of a proposed evolutionary rule, cranial evolutionary allometry (CREA). However, facial length has also been widely associated with the varying mechanical resistance of foods. Here, we combine geometric morphometrics and computational biomechanical analyses to determine whether evolutionary allometry or feeding ecology have been dominant influences on facial elongation across 16 species of kangaroos and relatives (Macropodiformes). We found no support for an allometric trend. Nor was craniofacial morphology strictly defined by dietary categories, but rather associated with a combination of the mechanical properties of vegetation types and cropping behaviours used to access them. Among species examined here, shorter muzzles coincided with known diets of tough, resistant plant tissues, accessed via active slicing by the anterior dentition. This morphology consistently resulted in increased mechanical efficiency and decreased bone deformation during incisor biting. Longer muzzles, by contrast, aligned with softer foods or feeding behaviours invoking cervical musculature that circumvent the need for hard biting. These findings point to a potential for craniofacial morphology to predict feeding ecology in macropodiforms, which may be useful for species management planning and for inferring palaeoecology. - PublicationFeeding Biomechanics Influences Craniofacial Morphology at the Subspecies Scale among Australian Pademelons (Macropodidae: Thylogale)(Springer New York LLC, 2020-06)
; ;Sherratt, Emma; ; ; Interspecific variation in the craniofacial morphology of kangaroos and wallabies is associated with diet and feeding behaviors. Yet, to how fine a taxonomic scale this relationship might exist is unknown. Using a combination of established morphometric analyses and novel finite element approaches, we test the limits of these associations by examining three closely-related pademelon taxa: the red-necked pademelon (Thylogale thetis), and two subspecies of the red-legged pademelon (Thylogale stigmatica stigmatica and Thylogale stigmatica wilcoxi). All three taxa have distinct proportions of graze (grasses) and browse (leaves, stems, and branches of trees and shrubs) in their diets. We identified clear morphological differences in the crania between all three taxa and significant influences of geography and climate on cranial shape. We found significant differences in shape and strain magnitudes along the muzzle and cheek bones of each group that are consistent with the properties of their respective diets. These results suggest that feeding ecology influences craniofacial morphology down to the subspecies scale for at least some kangaroos and wallabies, which mirrors what is known at the macroevolutionary level for these species. This lends further weight to the predictive value of cranial morphology in determining feeding ecology among the Macropodiformes and may be of use in inferring feeding ecology of less accessible species for conservation and management.