Analysing trabecular bone morphology to interpret the behaviour of past populations has become more popular these last few years. Due to its non-destructive method of collecting data, microCT has...Show moreAnalysing trabecular bone morphology to interpret the behaviour of past populations has become more popular these last few years. Due to its non-destructive method of collecting data, microCT has been widely used in the field of palaeoanthropology in an effort to study the locomotion of extant and extinct primates, fossil hominins and past populations of modern humans. One problem with these studies is that they all rely on the assumption that adult trabecular bone morphology accurately reflects changes in mechanical loading during life. Ontogenetic studies of the human os coxae have indicated that this may not be the case. This study attempts to remedy this issue by investigating the ontogenetic trajectory of trabecular bone development in the talus of a modern human population from the 19th Century Netherlands. Trabecular bone variables such as bone volume ratio, connectivity density, trabecular number, thickness and degree of anisotropy of the talus were recorded using microCT for 55 individuals aged between 3 weeks and 50+ years and compared across age groups. Results show that talar trabecular morphology reflects mechanical loading during life and that abrupt changes in variables such as connectivity density and bone volume ratio can be used to identify the onset of independent walking in human infants.Show less
