Bioarchaeology is an exciting and fast-advancing field which combines archaeology with branches of the natural sciences to study key topics such as past health and well-being, diet, ecology, subsistence strategies and environmental impacts.
Our MSc in Bioarchaeology aims to develop a broad understanding of these issues through the study of human remains. Students on this programme will also have the opportunity to study animal remains, as well as floral and faunal evidence depending which pathway they choose to follow.
The three available Bioarchaeology pathways are:
The programme develops advanced practical skills in skeletal analysis, making use of the department’s well-provisioned specialist laboratories and reference collections. A particular strength of our provision is that we are able to address the bioarchaeology of both the New and Old Worlds. Those completing the programme acquire the skills necessary to continue into academic research or employment, as an osteologist in field units, museums or CRM companies.
It allows you to specialise in one of two named pathways: Human Osteology (physical anthropology and funerary archaeology) or Zooarchaeology (animal bones and other faunal remains).
Most of the formal classes that you attend will be based on a mixture of lectures, seminars, and workshops. The precise mix will vary between modules. These aim to outline the principal issues of the module, to explore some detailed issues, and, where relevant, to give you experience of working with a particular technique or data set.
All members of staff are actively engaged in research, both in Britain and abroad, and regularly attend conferences, symposia and workshops. It is through this active engagement in the discipline that we are able to supply top quality teaching by experts in their field and as a result we have a 24/24 grading for our teaching from the Quality Assurance Agency.
In addition to our established palaeobotany, experimental archaeology, and microscopy laboratories, we have a new bioarchaeology lab dedicated to the study of anatomical variation, palaeopathological conditions, and the funerary context of human and animal remains. The laboratory, accompanied by a designated store for the Department's collection of human remains, provides facilities for use by researchers and students for examining skeletal remains recovered from archaeological sites. Equipment includes anatomical casts and demographic reference standards used to determine the sex, age-at-death, stature and body proportions from human remains.
Bioarchaeological research at Exeter combines the study of archaeology with branches of the natural and physical sciences to address questions of health and well-being, diet, ecology, subsistence strategies and natural and human-induced environmental impacts in the past.
Our approach is holistic and inter-disciplinary, drawing its inspiration from both definitions of ‘bioarchaeology’: as a study applied to human remains (human osteoarchaeology) and, as originally defined by Grahame Clark, as related to the integration of environmental archaeology, floral and faunal evidence – archaeobotany and zooarchaeology – in archaeological research.
Active field research programmes in North and South America and Eurasia link with extensive laboratory research to address questions of social structure and social organisation, the process of animal and plant domestication, the development of social inequality and power relations, violence and warfare, the rise of élites and craft specialists, and division of labour.
This programme includes 135 credits of compulsory modules and 45 credits of optional modules.
The compulsory modules for each of the pathways can include the following;
The following is a list of the possible optional modules;
The modules listed here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand