andEnergy Directorate (NVE), Oslo, Norway2Department of Geosciences, University of Oslo, Norway3Institute for Marine and Atmospheric Research, Utrecht University, Utrecht, the Netherlands
Andreassen, L. and Oerlemans, J., 2009: Modelling long-term
summer and winter balances and the climate sensitivity of Stor-breen, Norway. Geogr. Ann. 91 A (4): 233–251.
ABSTRACT. Measurements of winter balance (bw
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management, XXVI Nordic hydrological conference, Riga, Latvia August 9-11 2010. Nordic hydrological programme report No. 51. p138-139.
Kurpniece. L., Lizuma, L., Timuhins, A., KolcovaT., Kukuls, I. (2010). Climate Change Impacts on Hydrological Regime in Latvia. Conference on Future Climate and Renewable Energy, Oslo, May 31-June 2, 2010.
Meilutytė-Barauskienė D., Kriaučiūnienė J. & Kovalenkovienė M
/ces/publications/nr/1938
to c. 10% increase
Uncertainty related to choice of GCM
• Changing seasonality (2021-2050 vs 1961-1990)
in Sweden
T2m Precipitation Wind speed
Colored lines represent averages over RCMs forced by the same GCM
Gray field is max/min of all RCM simulations
An example of CC in the next few decades
2011-2040
vs
1961-1990
Why are differences between ensemble
members so large?
Winter (DJF)
M
S
L
P
T
2
/media/ces/Kjellstrom_Erik_CES_2010.pdf
not representative of present or future climate
conditions?
Winter mean T in Helsinki (1961-2008)
1961-
20081961-
1990
Temperature (°C)
P
r
o
b
a
b
i
l
i
t
y
d
e
n
s
i
t
y
-12 4
Simplest case: change in mean climate,
with no change in the magnitude of variability
If variability changes as well, the two tails of the distribution
(e.g., warm and cold) will be affected differently.
IPCC (2001
/media/ces/RaisanenJouni_CES_2010.pdf
variability
Models
Emission scenarios
2000 2100
LEVEL OF
UNCERTAINTY
Near future End of the
century
Natural climate variability + +
Climate model sensitivity (+) ++
Emission scenarios ++
Source: J. Räisänen (Univ. of Helsinki)
Probabilistic forecasts
of temperature change
in southern Finland
(1971-2000 barb2right 2011-2020)
Temperature change (ºC)
P
r
o
b
a
b
i
l
i
t
y
d
e
n
s
i
t
y
(
1
/
º
C
/media/loftslag/Case_B___Road_transport_operation_and_infrastructure_planning.pdf
L. Michaelis, S. Mori, T. Morita, W.Pepper,
H. Pitcher, L. Price, K. Raihi, A. Roehrl, H.-H. Rogner, A. Sankovski, M.Schlesinger,
P.Shukla, S. Smith, R. Swart, S. van Rooijen, N. Victor, Z. Dadi, 2000: IPCC Special Report
on Emission Scenarios. Cambridge University Press, United Kingdom and New York, NY,
USA.
a)
b)
c)
Fig.1 Change of annual extreme temperature range
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Perez P, Burn S (2010) Co-engineering participatory
water management processes: theory and insights from Australian and Bulgarian interventions. Ecology and Society 15(4):11
http://www.ecologyandsociety.org/vol15/iss4/art11
Eriksson L, Garvill J, Nordlund AM (2006). Acceptability of travel demand management measures: The importance of problem awareness, personal norm,
freedom, and fairness
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and the environment: the importance of
recognizing knowledge claims in transdisciplinary
arenas. Ecology and Society 16(1): 21. [online]
URL: http://www.ecologyandsociety.org/vol16/iss1/
art21/.
Cash, D. W., W. Adger, F. Berkes, P. Garden, L.
Lebel, P. Olsson, L. Pritchard, and O. Young. 2006.
Scale and cross-scale dynamics: governance and
information in a multilevel world. Ecology and
Society 11(2): 8
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