Studies of ancient biomolecules often dominate bioarchaeological research. This module provides a theoretical background to a range of methods, techniques and applications in the field of ancient biomolecules, including ancient DNA, stable isotope analysis, palaeoproteomics and organic residue analysis. An emphasis will be placed on how ancient biomolecules can help answer archaeological questions. This module is principally targeted at bioarchaeologists, but will more broadly appeal to anyone who is likely to encounter biomolecular datasets in the course of their research or professional career. Students have said that they enjoy the range of molecular approaches presented in the module and that the staff are enthusiastic about their subjects and explain the topics well.
Occurrence | Teaching period |
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A | Semester 1 2023-24 |
This module aims:
Having completed the course, students should be able to:
This module is designed to give you an understanding of the range of different approaches and applications in the analysis of ancient biomolecules. There will be a mixture of lectures and seminar workshops, with each week focused on a different molecular approach, including ancient DNA, palaeoproteomics, stable isotope analysis and organic residue analysis. Initial sessions will introduce the relevant biomolecules and their preservation over archaeological timescales. Subsequent sessions will describe how biomolecules are extracted and analysed from a range of bioarchaeological materials, from skeletal tissues to material culture to plant remains, in order to complement and enhance information gained from macro and microscopic techniques. Seminar workshops will explore the archaeological applications of these techniques and how different analyses of ancient biomolecules can complement one another to answer overarching archaeological questions.
Task | % of module mark |
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Essay/coursework | 100 |
None
Task | % of module mark |
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Essay/coursework | 100 |
Formative: oral feedback from module leaders
Summative: written feedback within the University's turnaround policy
Richards, M.P. and Britton, K. eds., 2020. Archaeological Science: An Introduction. Cambridge University Press.
Cappellini, E. et al. (2018) ‘Ancient Biomolecules and Evolutionary Inference’, Annual Review of Biochemistry, 87, pp. 1029–1060.
Orlando, L., Allaby, R., Skoglund, P., Der Sarkissian, C., Stockhammer, P.W., Ávila-Arcos, M.C., Fu, Q., Krause, J., Willerslev, E., Stone, A.C. and Warinner, C., 2021. Ancient DNA analysis. Nature Reviews Methods Primers, 1(1), pp.1-26.