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Table of Contents
Chapter 1. Introduction: Towards Refining the Concept of Mobility
Chapter 2. Long Bone Structural Analyses and the Reconstruction of Past Mobility: A Historical Review
Chapter3. Bipedalism and Musculoskeletal Stress Markers: Variation and What it reveals About Adaptation, Environmental Stress, and Reconstructing Activity Patterns
Chapter 4. Does the Distribution and Variation in Cortical Bone along Lower Limb Diaphyses Reflect Selection for Locomotor Economy?
Chapter 5. Human Variation in the Periosteal Geometry of the Lower Limb: Signatures of Behaviour among Human Holocene Populations
Chapter 6. The Importance of Considering Fibular Robusticity when Inferring the Mobility Patterns of Past Populations
Chapter 7.The Relationship between Femur Shape and Terrestrial Mobility Patterns
Chapter 8. Activity, Body Shape, and Cross-sectional Geometry of the Femur and Tibia
Chapter 9. Variation in Mobility and Anatomical Responses in the Late Pleistocene
Chapter 10. Femoral Diaphyseal Shape and Mobility: An Ontogenetic Perspective
Chapter 11. The Balance between Burden Carrying, Variable Terrain and Thermoregulatory Pressures in Assessing Morphological Variation
Chapter 12. Territory Size in Canis lupus: Implications for Neandertal Mobility
Chapter 13. The Effects of Terrain on Long Bone Robusticity and Cross-sectional Shape in Lower Limb Bones of Bovids, Neandertals, and Upper Paleolithic Modern Humans
Chapter 14. Linearity in the Real World
An Experimental Assessment of Non-linearity in Terrestrial Locomotion
Chapter 15. Femoral Mechanics, Mobility, and Finite Element Analysis
Chapter 16 Femoral Mechanics, Mobility, and Finite Element Analysis.
Chapter 2. Long Bone Structural Analyses and the Reconstruction of Past Mobility: A Historical Review
Chapter3. Bipedalism and Musculoskeletal Stress Markers: Variation and What it reveals About Adaptation, Environmental Stress, and Reconstructing Activity Patterns
Chapter 4. Does the Distribution and Variation in Cortical Bone along Lower Limb Diaphyses Reflect Selection for Locomotor Economy?
Chapter 5. Human Variation in the Periosteal Geometry of the Lower Limb: Signatures of Behaviour among Human Holocene Populations
Chapter 6. The Importance of Considering Fibular Robusticity when Inferring the Mobility Patterns of Past Populations
Chapter 7.The Relationship between Femur Shape and Terrestrial Mobility Patterns
Chapter 8. Activity, Body Shape, and Cross-sectional Geometry of the Femur and Tibia
Chapter 9. Variation in Mobility and Anatomical Responses in the Late Pleistocene
Chapter 10. Femoral Diaphyseal Shape and Mobility: An Ontogenetic Perspective
Chapter 11. The Balance between Burden Carrying, Variable Terrain and Thermoregulatory Pressures in Assessing Morphological Variation
Chapter 12. Territory Size in Canis lupus: Implications for Neandertal Mobility
Chapter 13. The Effects of Terrain on Long Bone Robusticity and Cross-sectional Shape in Lower Limb Bones of Bovids, Neandertals, and Upper Paleolithic Modern Humans
Chapter 14. Linearity in the Real World
An Experimental Assessment of Non-linearity in Terrestrial Locomotion
Chapter 15. Femoral Mechanics, Mobility, and Finite Element Analysis
Chapter 16 Femoral Mechanics, Mobility, and Finite Element Analysis.