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Animal Behaviour Group

McMaster University now boasts a large and interactive group of researchers who use evolutionary and psychophysical approaches to study animal behaviour. Members of the Animal Behaviour Group use a wide variety of techniques to conduct laboratory and field experiments on animals ranging from fruit flies to bats to mice to humans. Students have an opportunity to learn evolutionary analyses of behaviour, design and analyses of behavioural experiments, theoretical modeling, genetic analyses, and endocrine, physiological and neurobiological techniques.

For Undergraduate Students

Undergraduate courses in this area include Sensory Processes (2E03), Neuroscience (2F03), Animal Behaviour (2TT3), Audition (3A03), Evolution & Human Behaviour (3F03), Motivation & Emotion (3M03), Animal Behaviour Lab (3S03), Behavioural Ecology (3T03), Evolution of Communication (3YY3), Special Topics in Animal Behaviour (4R03), and Hormones, Neurochemistry & Behaviour (4Y03). Students considering graduate school should consider completing a course with a strong research component (4QQ3, 4D06, 4DD6, 4D09). Breadth of training in allied fields (such as ecology, physiology, or chemistry) and/or possession of particular practical skills (such as statistical analysis, computer programming, or electronics) can be helpful. Many animal behaviourists teach and/or do research at universities or colleges. Many have academic appointments in biology, psychology or zoology departments. Researchers may work in laboratories or in the field, depending upon the nature of the research project. Applied animal behaviourists may be hired by zoos, museums, and government and private facilities to help conduct ongoing animal behaviour research.


  • Evolution of parental care, sperm competition and cooperation
  • Physiological, neurobiological and genetic mechanisms underlying behaviour in general and reproductive behaviour in particular
  • Neuroethology of acoustic and auditory behaviour
  • Adaptive significance of learning and other cognitive traits
  • Evolutionary analyses of human cognition and behaviour
  • Social learning of food and mate preferences 
  • Sexual selection
  • Effects of learning on physiological regulation
Quail

The list below includes links to members' laboratories and email addresses. Please feel free to contact any member of the Animal Behaviour Group to discuss the possibility of Graduate studies. Financial support is available.

 

 

Sigal Balshine (PNB)
Ana Campos (Biology)
Mertice Clark (PNB)
Martin Daly (PNB)
Denys DeCatanzaro (PNB)
Reuven Dukas (PNB)
David Earn (Mathematics)
David Feinberg (PNB)

Paul Faure
(PNB)
Paul Higgs (Physics)
Bennett Galef (PNB)
Grant McClelland (Biology)
Jim Quinn (Biology)
David Rollo (Biology)
Shepard Siegel (PNB)
Jonathon Stone (Biology)
Margo Wilson (PNB)

 
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