Climate Modelling and Scenarios Deliverable D2.3). 36 pp.
Venäläinen, A., Saku, S., Jylhä, K., Nikulin, G., Kjellström, E. & Bärring, L. (2009). Climate extremes and safety of nuclear power plants: Extreme temperatures and enthalpy in Finland and Sweden in a changing climate. Nordisk Kärnsäkerhet, NKS-194. pp 33. ISBN 978-87-7893-261-7. http://www.nks.org/download/pdf/NKS-Pub/NKS-194.pdf
Ylhäisi, J
/ces/publications/nr/1680
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
plan
and the climate action plans. Furthermore, is the role of the mandatory strategic environmental assessment
(SEA) of plans and programs (SEA Directive 2001/42/EC) investigated as a possible regulative tool for
climate change integration. The research contributes with insight on the institutional dynamics at the local
level in order to implement climate actions in practice and add micro
/media/loftslag/programme2---PhD-Workshop-preceding-Adaptation-Research-Conference.pdf
–5
months per year depending on watershed. Mean yearly maximum snow thickness
decreases by 0–80%.
Winter flow is predicted to increase on average due to a higher number of melt events at
relatively high and flat heath areas of the watersheds. For Sandá í Þistilfirði, vhm 26, the
snowmelt generated spring/summer discharge peak largely disappears and the seasonal
discharge becomes more evenly
/media/ces/2010_016.pdf
ct of this te
vember to M
the lower
perature b
th small ar
mall. The
perature fo
r Apr May
2 -1.6 1.8
8 -1.6 1.8
0.0 0.0
ean yearl
of manual o
in blue.
nce the MM
able 3.
ity of the
ut when co
s observed
he winter m
r the lowes
mperature
arch whe
part of the
ias in the M
ea reaching
effects on r
17
r Sandá í Þ
Jun Jul
5.8 8
5.4 7.4
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MM5 temp
/media/ces/2010_017.pdf
and to list categories of stakeholders such as water
users, potential groundwater pollution sources, and autho-
rities in the area including: local waterworks; water
consumers; farmers; industry; anglers; the local county;
and three municipalities. The stakeholder involvement
process and the extension of the organisation with new
Define context
Collect dat
a
Define states
Identify factors, ac
tion
s
/media/loftslag/Henriksen_Barlebo-2008-AWM_BBN-Journ_Env_Management.pdf
is on the northern North Atlantic and the Nordic Seas. With the southern
boundary at 47 N, the study domain covers Newfoundland, but excludes various marginal and
inland seas with significant independent storm activity, such as the Mediterranean and Adriatic
Seas, as well as the Black and Caspian Seas. The northern boundary at 80 N takes the domain
up to Fram Strait, including Svalbard, but excluding
/media/vedurstofan/utgafa/skyrslur/2015/VI_2015_005.pdf
The problem awareness variable had a
high internal consistency (a ¼ 0:95).
3. Results
3.1. Descriptive analysis of values, beliefs, and norms
In Table 2, means and standard deviations for pro-
environmental orientation, problem awareness of private
car use, personal norm, and willingness to reduce car use
are shown. The sample was to some extent pro-environ-
mental, and car use was perceived
/media/loftslag/Eriksson_Garvill_Nordlund_2006.pdf
& Höskuldsson, 2008; Thordarson & Larsen,
2007). Highly active volcanic systems as Hekla, Katla, Bárðarbunga and Grímsvötn, have
explosive eruptions rates of 82%, 97%, 90% and 95%, respectively (Gudmundsson & Larsen,
2016; Larsen & Gudmundsson, 2016b, 2016a; Larsen & Thordarson, 2016). Volcanic eruptions
are quite common in Iceland and occur on average every two to five years (Larsen & Eiríksson
/media/vedurstofan-utgafa-2020/VI_2020_004.pdf