Will the otter be able to recover? How do plants settle in new areas? Why do geese always travel south at exactly the same time? How do species of plants and animals live together in a habitat?
During this two-year Master's programme Ecology and Evolution, you will gain insight into the living organism in relation to its environment.
Ecology is an internationally oriented field and the degree programme has a strong focus on research. You will therefore conduct one or two independent research projects in various fields. But as you can design most of the programme yourself, you can specialize in the area of your interest. This programme also offers a Top Programme in Evolutionary Biology.
The Master's degree programme Ecology and Evolution is offered by t he Groningen Institute of Evolutionary Life Sciences (GELIFES), which conducts research in four relevant areas: * Evolutionary Ecology & Genetics * Behavioural Ecology & Ecophysiology * Conservation Biology * Community Ecology
Why in Groningen?
- Design most of your programme yourself ! - Offers Top programme Evolutionary Biology! - Research projects possible in various fields!
As a graduate of this programe you can for example become a researcher at a university or at an institution for applied research. You also have the options of becoming a project officer, consultant or policy officer.
- PhD research position - Project officer - Consultant
Research Projects in Various Fields
The Master's degree programme is coordinated by the Groningen Institute for Evolutionary Life Sciences. GELIFES is part of the Faculty of Mathematics and Natural Sciences and embraces fourteen research groups, which perform research in the fields of:
-Evolutionary Ecology & Genetics On the importance of genetic variation: how do genetic variation and natural selection result in reproductive systems, adaptation of organisms to their environment and the emergence of new species? We try to answer this question by means of an experimental, molecular approach (genomics) and via model-based studies.
-Behavioural Ecology & Ecophysiology Both the morphology and physiology of an organism and its behaviour are formed by selection. Behaviour – for example the timing of reproduction, partner choice and time and route of bird migration – and physiology – for example the degree of plasticity to regulate energy use and temperature – are products of evolution. Theoretical models are paired with experimental ones to study these issues, both in the field and in the laboratory.
-Conservation Biology Small populations are threatened with extinction because their habitat is fragmented. Their chance of survival depends on their genetic structure, demography, dynamics of distribution, etc. This type of research is important, for example, for the restoration of nature reserves or the development of sustainable fishery. Examples of a research projects include the effects of genetic erosion in fruit flies and the seed dispersal of plants in the Wadden Sea.
-Community Ecology Species and individuals living in the same area interact with each other and with their environment. Processes of physiological adaptations and restrictions, competition, grazing, predation and succession can change a group of individuals into a community. Combining field observations, laboratory experiments and theoretical models can give us a better understanding of the mechanisms that are active in nature.