absolute errors (MAEs) are listed in Table 1. For
temperature, the overall bias in January is reduced by 86%, with a reduction in overall MAE of
17%. For wind speed, the overall January bias is reduced by 74%, with a reduction in overall
MAE of 9%. Both, for temperature and wind speed, the main benefit of the correction procedure
is a reduction of differences between monthly mean values. Mean absolute
/media/vedurstofan/utgafa/skyrslur/2014/VI_2014_005.pdf
improving
management policies and practices by learning from the
outcomes of implemented management strategies. Partici-
patory integrated assessment is here a form of problem
structuring for identification of gaps, ambiguity and
multiple frames, confrontation, and integration of the
most divergent views with respect to a given problem
situation.
Additional methods and tools that AM require com/media/loftslag/Henriksen_Barlebo-2008-AWM_BBN-Journ_Env_Management.pdf
when the spring floods decreased and autumn
and winter floods increased.
The differences between the scenarios were estimated by com-
paring the average changes of the scenarios (marked with dia-
monds in Fig. 5). The differences between different emission
scenarios with the same GCM were rather small; the average
changes in floods differed on average by 1.7% units in 2070–
2099. The B1 scenario
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and CNES, n.d.;
National Center for Atmospheric Research Staff, 2016; Quante and Colijn, 2016). Now, additional
altimeters at different orbits perform slightly less accurate measurements up to 82 N and S (Rhein
et al., 2013). These records are used to estimate sea surface changes and calculate global mean sea
level, a temporal average sea level averaged over the oceans (Church, Clark, et al., 2013
/media/vedurstofan-utgafa-2020/VI_2020_005.pdf
Av. Ed.
Belin, 31400 Toulouse, France
Received: 21 March 2011 – Published in The Cryosphere Discuss.: 6 April 2011
Revised: 5 October 2011 – Accepted: 20 October 2011 – Published: 2 November 2011
Abstract. The Little Ice Age maximum extent of glaciers in
Iceland was reached about 1890 AD and most glaciers in the
country have retreated during the 20th century. A model for
the surface mass balance
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Pw at Bulken andRøldal indicated a slightly higher mean bw for theperiod 1923/24–1948/49, 1.3 m w.e., than calculat-ed by the model using a temperature threshold of3°C for Psolid. The bw for the period prior to 1895/96–1922/23 was also 1.3 m w.e. using precipitationdata from Bulken. The reconstructed bw further in-dicated that the high winter balances measured inthe period 1989–1995 with a maximum
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farvegarins undir jöklinum út frá rúmmáli vatns
sem þar hefur safnast fyrir benda til þess að viðnám gegn vatnsrennsli við jökul-
botn minnki eftir því sem líður á hlaupið. Undir lok hlaupsins runnu á bilinu 80–
90 m3 s 1 um farveg sem var einungis einn þriðji hluti af rúmmáli farvegar sem flutti
svipað vatnsmagn á fyrsta eða öðrum degi eftir að hlaupið hófst við jökuljaðar. Þessi
niðurstaða er
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on the European level [e.g.
Water Framework Directive (Directive 2000/60/EC),
Common Agricultural Policy, etcetera], except for the
Ukrainian part of the Tisza. However, the Ukraine shows
strong incentives to enter the EU community and thus the
EU acquis communautaire is used as key reference for the
development of its water management principles. It was
nevertheless decided to select two case-studies
/media/loftslag/Huntjens_etal-2010-Climate-change-adaptation-Reg_Env_Change.pdf
for Iceland were made. The CE
project used an ensemble of six GCMs and RCMs from the PRUDENCE project for four different
emissions scenarios (B1, B2, A2, and A1FI) developed by the Intergovernmental Panel on Climate
Change (IPCC). The GCMs used by the CE project showed more warming during winter than
summer. During winter, the median projected warming from 1961–90 to 2070–99 ranged from
3–6 K, and from 2
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