Module Information

The first part of the course will focus on fish adaptations and the origins of fish diversity. It will explore the basic principles of fish biology, ecology and evolution, including the ecomorphology of locomotion and feeding, foraging ecology, bioenergetics and growth, ecology and physiology of reproduction, population dynamics and life histories of fishes. An aim will be to illustrate how understanding of fundamental fish biology underpins our understanding of of how fish populations may respond to conservation, fisheries and aquaculture manipulation.

The second part of the module will explore more applied issues of wild capture fisheries, farmed (aquacultured) populations, and species and population conservation, in marine and freshwater systems. It will include genetics of fish populations (population structuring and stock differentiation) and basic principles of quantitative genetics applied to wild and farmed populations. It will introduce the principles of fisheries management, with consideration of different methods of exploitation and particular emphasis on sustainability. The causes of over fishing will be discussed. Fisheries management techniques will be discussed critically in the light of the decline of major fisheries and the potential for evolutionary consequences of selective fishing and fish stock declines will be explored. The development and role of aquaculture systems will be discussed in terms of positive (improving future food supply) and negative consequences (e.g. introduction of invasive species and disease). The interaction of wild and farmed fish exploitation with management and conservation of wild populations will be discussed.
Where appropriate, examples taken from staff research areas will be used to illustrate principles and provide examples of pure and applied research in fish biology, as appropriate to a 3rd year module.