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Synopsis High-resolution imaging, 3D modeling, and quantitative analyses are equipping evolutionary biologists with new approaches to understanding the variation and evolution of the musculoskeletal system. However, challenges with interpreting DiceCT data and higher order use of modeled muscles have not yet been fully explored, and the error in and accuracy of some digital methods remain unclear. West Indian Anolis lizards are a model clade for exploring patterns in functional adaptation, ecomorphology, and sexual size dimorphism in vertebrates. These lizards possess numerous jaw muscles with potentially different anatomies that sculpt the adductor chamber of the skull. Here we test approaches to quantifying the musculoskeletal shape of the heads of two species of Anolis: A. pulchellus and A. sagrei. We employ comparative approaches such as DiceCT segmentation of jaw muscles, 3D surface attachment mapping, and 3D landmarking with the aim of exploring muscle volumes, 3D muscle fiber architecture, and sexual dimorphism of the skull. We then compare sources of measurement error in these 3D analyses while also presenting new 3D musculoskeletal data from the Anolis feeding apparatus. These findings demonstrate the accessibility and repeatability of these emerging techniques as well as provide details regarding the musculoskeletal anatomy of the heads of A. pulchellus and A. sagrei which show potential for further research of comparative biomechanics and evolution in the clade.
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Comparative approaches to understanding speciation: a case study in Xantusia lizards
Abstract The diversity of life forms that surround us formed through a variety of processes. Speciation researchers use a suite of comparative approaches to understand both the generalities and the variance underpinning this diversification. Here, we summarize these approaches and what they have taught us, and we then apply them to understand speciation in the night lizards Xantusia, a genus of small lizards found in the arid regions of western North America. Although Xantusia species span both a range of phenotypic and genetic divergence, we find that speciation in Xantusia appears to be a predictable consequence of divergence in extended periods of allopatry. We conclude by identifying possible areas of growth for comparative studies of speciation.
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- Award ID(s):
- 2023979
- PAR ID:
- 10549720
- Publisher / Repository:
- Oxford University Press
- Date Published:
- Journal Name:
- Evolutionary Journal of the Linnean Society
- Volume:
- 3
- Issue:
- 1
- ISSN:
- 2752-938X
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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