Nettsider med emneord «Hydrology»

Publisert 25. jan. 2019 08:56

Water flow on, in and under glaciers still remains a poorly understood system. Water can flow over the surface of glaciers, as well as through channels inside and under the ice. The water thereby has strong influence both on ice melt and glacier dynamics, making glacial hydrology an important field of study.

Publisert 25. jan. 2019 08:55

Water flow on, in and under glaciers still remains a poorly understood system. Water can flow over the surface of glaciers, as well as through channels inside and under the ice. The water thereby has strong influence both on ice melt and glacier dynamics, making glacial hydrology an important field of study.

Publisert 19. nov. 2018 13:22
Publisert 21. aug. 2018 10:41
Publisert 22. mai 2017 11:07
Publisert 9. nov. 2016 16:25
Publisert 7. nov. 2016 11:23
Publisert 7. nov. 2016 11:23
Publisert 7. nov. 2016 11:23
Publisert 7. nov. 2016 11:23
Publisert 16. sep. 2016 14:34

In HyCAMP we address the impact of Short Lived Climate Forcers (SLCF) on cryospheric and hydrologic systems in the Himalayas, India, and Norway. The research is done in cooperation with The Department of Science and Technology, India.

Publisert 14. jan. 2016 15:57
Publisert 21. aug. 2015 12:55
Publisert 5. sep. 2014 12:11
Publisert 10. des. 2013 21:17
Publisert 10. des. 2013 19:55
Publisert 10. des. 2013 19:55
Publisert 10. des. 2013 19:55
Publisert 10. des. 2013 19:55
Publisert 10. des. 2013 19:55
Publisert 22. nov. 2011 23:03

Water availability is expected to be highly sensitive to climate change and severe water stress conditions may cause major social, economic and environmental problems. This requires better knowledge on the drought generating mechanisms, its impacts and mitigation options.

The aim of the DROUGHT-R&SPI project is to improve drought preparedness in Europe through increased knowledge of drought generating processes, drought early warning and management plans, and improved science-policy interfacing.