Abstract
Homoplasy is a strong indicator of a phenotypic trait's adaptive significance when it can be linked to a similar function. We assessed homoplasy in functionally relevant scapular and femoral traits of Marmotini and Xerini, two sciuromorph rodent clades that independently acquired a fossorial lifestyle from an arboreal ancestor. We studied 125 species in the scapular dataset and 123 species in the femoral dataset. Pairwise evolutionary model comparison was used to evaluate whether homoplasy of trait optima is more likely than other plausible scenarios. The most likely trend of trait evolution among all traits was assessed via likelihood scoring of all considered models. The homoplasy hypothesis could never be confirmed as the single most likely model. Regarding likelihood scoring, scapular traits most frequently did not differ among Marmotini, Xerini, and arboreal species. For the majority of femoral traits, results indicate that Marmotini, but not Xerini, evolved away from the ancestral arboreal condition. We conclude on the basis of the scapular results that the forelimbs of fossorial and arboreal sciuromorphs share mostly similar functional demands, whereas the results on the femur indicate that the hind limb morphology is less constrained, perhaps depending on the specific fossorial habitat.
Highlights
The conclusions drawn on the orientation of this in-lever in chapter 5.1 would not have been majorly affected, as the range of angles among lifestyles was too small to allow for any functional interpretation
The findings of this thesis contribute to the rich but fragmentary knowledge about the functional morphology of the sciuromorph locomotor apparatus. They further provide an understanding of the potential and the limitations of the current toolkit of phylogenetic comparative methods for the study of adaptation, which is relevant for the investigation of other taxa
This thesis demonstrated that the scapula and femur underwent a highly adaptive mosaic-like evolution with strong stabilising selection
Summary
The forelimb of mammals is a recurring study subject in functional morphology (e.g., Amson, Arnold, van Heteren, Canoville & Nyakatura, 2017; Astúa, 2009; Botton-Divet, Cornette, Houssaye, Fabre & Herrel, 2017; Candela & Picasso, 2008; Carrizo, Tulli, Dos Santos & Abdala, 2014; Coutinho & de Oliveira, 2017; Coutinho, de Oliveira & Pessôa, 2013; Dublin, 1903; Fabre, Cornette, Goswami & Peigne, 2015; Hildebrand, 1988; Hildebrand & Goslow, 1995; Holliger, 1916; Kilbourne, 2017; Lehmann, 1963; Ludwig, 1939; Lull, 1904; Osburn, 1903; Polly, 2007; Reinhardt, 1929; Samuels, Meachen & Sakai, 2013; Samuels & Van Valkenburgh, 2008; Sargis, 2002; Shimer, 1903; Smith & Savage, 1956; Taylor, 1974; Van Valkenburgh, 1987). Sciuromorpha represents an informative mammal group to study how the interplay of locomotor ecology and body mass affects the morphology of the forelimb This monophyletic group of rodents (Fabre, Hautier, Dimitrov & Douzery, 2012, termed squirrel-related clade therein) comprises about 300 extant species and colonized various kinds of terrestrial habitats (xeric shrubland, mountainous regions, temperate and tropical rainforests, etc.) on all continents except for Antarctica and Australia (Nowak, 1999; Thorington Jr., Koprowski, Steele & Whatton, 2012). In order to explore the interactive effect of locomotor ecology and body mass on the sciuromorph forelimb, we decided to conduct a phylogenetically informed comparative study on the most proximal skeletal element, the scapula.
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