Unit name | Social Evolution: Genes to Societies |
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Unit code | BIOL30003 |
Credit points | 10 |
Level of study | H/6 |
Teaching block(s) |
Teaching Block 4 (weeks 1-24) |
Unit director | Professor. Andy Radford |
Open unit status | Not open |
Pre-requisites |
None, but we strongly advise that students should previously have studied BIOL20104 Behavioural Ecology (L2) and BIOL20103 Acquisition of Behaviour (L2). If you have not taken these units, please consult the Unit Director for suggested background reading. |
Co-requisites |
None |
School/department | School of Biological Sciences |
Faculty | Faculty of Life Sciences |
Sociality pervades all aspects of biological existence, from genes to human civilisations. For example, genes aggregate into genomes, cells into multicellular organisms, and insects into colonies. At each level in the hierarchy of biological organisation, these changes represent a major transition in evolution, whereby a new level of 'individuality' emerges, and the behaviours of group members changes as they become increasingly committed to specific phenotypic roles. Recently, there have been important theoretical and empirical advances in our understanding of the proximate (mechanistic) and ultimate (evolutionary) processes underlying sociality, and the extent to which there is a common evolutionary and mechanistic framework that explains sociality across the hierarchy of biological organisation.
The primary aim of the course is to explain the unified theory of social evolution that applies from genes to civilisations. This theory can be use to underpin the key phases in the transition to social living. Broadly, these are: (a) social group formation, including the costs and benefits of giving up independence to live in a group; (b) social group maintenance, including the processes that limit exploitation and conflict within and between groups; and (c) transition to complex sociality, including the shift from individual-level organisation to self-organisation. The concept of increasing levels of commitment to specific roles by individual group members will be explored, through these different stages.
The secondary aim is to explore the mechanistic basis of social evolution, with specific emphasis on how the genome accommodates the evolution of this higher-level individuality. Whilst our functional understanding of sociality is well developed, it is only in recent years that we have been able to make substantive progress in understanding the mechanistic basis to sociality. Here, we will draw on the recent sociogenomics literature that seeks to explain sociality in molecular terms. Using examples from across the hierarchy of biological organisation, we will determine to what extent social behaviour is underlain by the same conserved molecular processes and the emerging role of genomic novelty in social evolution and behaviour. This gene-level approach can help us attain an integrated understanding of sociality, across levels of biological organisation, through integrated interrogation of proximate and ultimate questions.
Students who have completed this course will have:
Lectures, directed reading, research and/or problem-solving activities; and independent study.
Summative written assessment, with one essay question to be selected from a choice of two.
Primary texts: e.g. Bourke AFG (2011) Principles of Social Evolution. Oxford University Press. Robinson GE, Grozinger CM, Whitfield CW (2005) Sociogenomics: social life in molecular terms. Nature Reviews Genetics, 6, 257–70. Keller L, ed. (1999) Levels of Selection in Evolution. In. Princeton University Press, Princeton Maynard Smith J, Szathmáry E (1995) The Major Transitions in Evolution. W.H. Freeman, Oxford
Supplementary texts: e.g. Boomsma JJ (2009) Lifetime monogamy and the evolution of eusociality. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 364, 3191–207. Enrico Coen (2013) Cells to Civilizations: The principles of change that shape life. Princeton University Press.