Christian Huesmann 1, Sophie Rotter 3, Claudia Pahl-Wostl 1,
Karina Speil 3, and Wiebke Pohl 1
ABSTRACT. New regulatory water management requirements on an international level increasingly
challenge the capacity of regional water managers to adapt. Stakeholder participation can contribute to
dealing with these challenges because it facilitates the incorporation of various forms of knowledge
/media/loftslag/Daniell_etal-2010.pdf
(see top part of graph). Measurements between 2 and 3 PM on Oct. 31 indicated a discharge of 143 m3/s (cubic meters per second) and the water was confined to a narrow part of the channel. Between 9 and 10 AM on November 1, the discharge had increased to 455 m3/s, filling most of the river channel underneath the bridge.
The automated hydrometric station at Gígjukvísl shows that the water level has
/hydrology/articles/nr/2040
(see top part of graph). Measurements between 2 and 3 PM on Oct. 31 indicated a discharge of 143 m3/s (cubic meters per second) and the water was confined to a narrow part of the channel. Between 9 and 10 AM on November 1, the discharge had increased to 455 m3/s, filling most of the river channel underneath the bridge.
The automated hydrometric station at Gígjukvísl shows that the water level has
/earthquakes-and-volcanism/articles/nr/2040
an over-
all picture (67 sites of varying runoff area sizes) of the changes in
floods by 2010–2039 and 2070–2099 using conceptual hydrologi-
cal modelling and several climate scenarios and (2) estimating
the consequent changes in flood inundation at four selected settle-
ments using 2D hydraulic modelling. A further goal is (3) to outline
climate change effects regionally as well as in different types
/media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf