Department Surface Waters - Research and Management

Surface Waters -
Research & Management (Surf)

We focus both on processes in the aquatic environment as well as on entire systems of natural waters.

We perform basic and applied research and several projects have a problem-oriented and interdisciplinary focus, including system analysis. Read more

News

Meeresstichling. (Foto: Ole Seehausen, Eawag)
June 3, 2019

“Copying & pasting” a gene allows stickleback to live in freshwater habitats

Since the last ice age, stickleback have managed to emerge from the sea to colonise many freshwater waterbodies. Genetic analysis by Eawag researchers and colleagues from the University of Bern and the National Institute of Genetics in Shizuoka, Japan, now demonstrate that they achieved this thanks to additional copies of a metabolism gene. Read more

More news

Latest Publications

Lange, K.; Wehrli, B.; Åberg, U.; Bätz, N.; Brodersen, J.; Fischer, M.; Hermoso, V.; Reidy Liermann, C.; Schmid, M.; Wilmsmeier, L.; Weber, C. (2019) Small hydropower goes unchecked, Frontiers in Ecology and the Environment, 17(5), 256-257, doi:10.1002/fee.2047, Institutional Repository

A key metabolic gene for recurrent freshwater colonization and radiation in fishes

Colonization of new ecological niches has triggered large adaptive radiations. Although some lineages have made use of such opportunities, not all do so.The factors causing this variation among lineages are largely unknown. Here, we show that deficiency in docosahexaenoic acid (DHA), an essential w-3 fatty acid, can constrain freshwater colonization by marine fishes. Our genomic analyses revealed multiple independent duplications of the fatty acid desaturase gene Fads2 in stickleback lineages that subsequently colonized and radiated in freshwater habitats, but not in close relatives that failed to colonize.Transgenic manipulation of Fads2 in marine stickleback increased their ability to synthesize DHA and survive on DHA-deficient diets. Multiple freshwater ray-finned fishes also show a convergent increase in Fads2 copies, indicating its key role in freshwater colonization.
Ishikawa, A.; Kabeya, N.; Ikeya, K.; Kakioka, R.; Cech, J. N.; Osada, N.; Leal, M. C.; Inoue, J.; Kume, M.; Toyoda, A.; Tezuka, A.; Nagano, A. J.; Yamasaki, Y. Y.; Suzuki, Y.; Kokita, T.; Takahashi, H.; Lucek, K.; Marques, D.; Takehana, Y.; Naruse, K.; Mori, S.; Monroig, O.; Ladd, N.; Schubert, C. J.; Matthews, B.; Peichel, C. L.; Seehausen, O.; Yoshizaki, G.; Kitano, J. (2019) A key metabolic gene for recurrent freshwater colonization and radiation in fishes, Science, 364(6443), 886-889, doi:10.1126/science.aau5656, Institutional Repository
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Graduate Studies in our department

Video about Graduate Studies in the department Surface waters - Research and Management

Video about Graduate Studies in our department

Research Projects

Wastewater is a source of antibiotic resistant bacteria. We study their dissemination in the aquatic environment, and strategies to remove them.

Antibiotic resistance as an emerging environmental contaminant
Lakes store large amounts of heat. To what extent can this heat be used to replace the use of fossil fuels or electricity for heating and cooling purposes?

Using lakes for heating and cooling
We assess the environmental impacts of hydropower plants to support a sustainable development of this energy resource.

Effects of hydropower on surface waters
4’000 river kilometers will be rehabilitated in Switzerland over the course of the coming 80 years – a unique opportunity for learning!

Evaluating the outcome of river rehabilitation projects

More current Research Projects