Evolutionary biomechanics is the study of evolution through the analysis of biomechanical systems. Its unique advantage is the precision with which physical constraints and performance can be predicted from first principles. Instead of reviewing the entire breadth of the biomechanical literature, a few key examples are explored in depth as vehicles for discussing fundamental concepts, analytical techniques, and evolutionary theory. Each chapter develops a conceptual theme, developing the underlying theory and techniques required for analyses in evolutionary biomechanics. Examples from terrestrial biomechanics, metabolic scaling, and bird flight are used to analyse how physics constrains the design space that natural selection is free to explore, and how adaptive evolution finds solutions to the trade-offs between multiple complex conflicting performance objectives.
Evolutionary Biomechanics is suitable for graduate level students and professional researchers in the fields of biomechanics, physiology, evolutionary biology and palaeontology. It will also be of relevance and use to researchers in the physical sciences and engineering.
1. Themes
2. Selection
3. Constraint
4. Scaling
5. Phylogeny
6. Form and function in ight
7. Adaptation in avian wing design
8. Trade-offs: selection, phylogeny and constraint
This volume provides for all. ... This is a great volume for undergraduates or postdoctoral
researchers. --
The Quarterly Review of Biology This is a scholarly volume that approaches a challenging subject in a straightforward and rigorous manner, which is illuminating without being overpowering...ideal for students who want both depth and a fascinating context. --
The BiologistGraham Taylor,
University Lecturer in Mathematical Biology, University of Oxford, UK,Adrian Thomas,
Professor of Biomechanics, University of Oxford, UKGraham Taylor is University Ll#i