to 0.88 m (Thomé-Schmidt et al.) in the next 60–90 years.
Economic growth, population growth and intensified agricultural land use will increase demands on
fresh groundwater resources in the future. The uppermost surface groundwater is and will be
increasingly contaminated due to the land use. Changes in evaporation and recharge patterns will lead
to increased demand for water
/media/loftslag/Rolf_Johnsen_(Region_Midt,_Dk).pdf
water infra-
structure projects begun now are large
enough to push hydroclimate beyond the
range of historical behaviors (19). Some
regions have little infrastructure to buffer the
impacts of change.
Stationarity cannot be revived. Even with
aggressive mitigation, continued warming is
very likely, given the residence time of
atmospheric CO2 and the thermal inertia of
the Earth system (4, 20/media/loftslag/Milly_etal-2008-Stationarity-dead-Science.pdf
Nesjum
0-5 5-10 10 15 20-15
2008-2018
1979-1989
Dæmi um ólíkt rennslismynstur.
100
9080
70
60
50
40
30
20
10
0
Júní
mánaðarmeðaltal
Ársmeðaltal
Rennsli
m
3 /s
Sigurvegarinn í getraun Veðurstofunnar á Vísindavöku Rannís hlaut
heimsókn á Veðurstofuna að launum. Salka Elín Sæþórsdóttir ásamt
vinum sínum, Ými og Bjarti. Með þeim á myndinni er Ragnar Heiðar
Þrastarson, fagstjóri landfræðilegra
/media/vedurstofan/utgafa/arsskyrslur/VI_Arsskyrsla_2018_vef.pdf
The
role of orography was found to be crucial in determining the precipitation dis-
tribution and amount.
Atmospheric flow over Iceland was simulated for the period January 1961
through June 2006 using version 3–7–3 of the PSU/NCAR MM5 mesoscale
model (Grell et al., 1995). The domain used is 123× 95 points, centered at
64◦ N and 19.5◦ W, with a horizontal resolution of 8 km. There are 23 vertical
/media/ces/Paper-Olafur-Rognvaldsson_91.pdf
experiments for evaluating the effectiveness of avalanche defence structures in Iceland. Main results and future programme (pdf 0,8 Mb) (Í: Proceedings of the International Seminar on Snow and Avalanches Test Sites, Grenoble, France, 22−23 November 2002, F. Naaim-Bouvet, ed., s. 99−109, Grenoble, Cemagref, 2003, author T. Jóhannesson) [abstract] (html)
Stálgrindur eða snjóflóðanet? Val á tegund
/avalanches/imo/protective/
years, IMO has participated in extensive research supported by the European Commission, EC, and various other funds, which is meant to improve this situation. The results of the collective research were published in 2009 in a book called The design of avalanche protection dams - Recent practical and theoretical developments.
The design of protective measures in the run-out zones of avalanches
/about-imo/news/nr/1631
19-29, 2009.
Partners
CICERO, Center for Klimaforskning, Norway
Denmark Meteorological Institute
Ea Energianalyse A/S, Danmark
Finnish Energy Industries
Finnish Environment Institute (SYKE
/ces/publications/nr/1936
The International Forestry Review 12(5), p 28.
Alam, A., Kilpeläinen, A. and Kellomäki, S. (2010). Forest biomass for energy production ? Potentials, management and risks under climate change. Conference on Future Climate and Renewable Energy: Impacts, Risks and Adaptation, 31.5. ? 2.6.2010, Oslo, Norway. Conference Proceedings pp. 50-51.
Kellomäki, S. (2007). In: J. Fenger (Ed.) Impacts of Climate Change
/ces/publications/nr/1939