Skeletal muscle is a highly sexually dimorphic tissue, with males and females exhibiting differences in muscle size, gene transcription, and metabolism. This thesis describes two models wherein males and females responded to an intervention with the same physiological adaptation but through two distinct mechanisms. In the first model, mice of...
Skeletal sexual dimorphism presents itself in humans primarily through the anatomical shape of the cranium and pelvis. However, some physical anthropologists maintain that climate could have an effect on human sexual dimorphism. Despite ongoing research pertaining to climatic effects on soft tissue or size dimorphism, little to no research has...