(Percent) By
Year Built Categories
Percent of Homes Damaged By Year Built
Categories
36
24
26
28
30
32
34
Pre 1980 80-96 97-2002 Post 2002
Percent Damaged
All Homes – Damage Per Square
Foot
All Homes - Damage Per Square Foot
2
2.5
D
a
m
a
g
e
P
e
r
S
q
.
F
o
o
t
0
0.5
1
1.5
< 120 120-129 130-139 140-149 > 149
D
a
m
a
g
e
P
e
r
S
q
.
F
o
o
t
Pre 1980
1980-1996
1997-2002
Post 2002
/media/loftslag/FMI_-_Disaster_Mitigation.pdf
Thursday, 14 November
Time Agenda Item
09:00 – 10:30
09:00 – 09:20
09:20 – 09:40
09:40 – 10:00
10:00 – 10:30
Potential Arctic / Mid-Latitude Linkages - East Asia (Chair: Jim Overland)
Rapid Arctic Warming in Recent Decades and Its Impact on Climate Change over East Asia
- S-J Kim
Extreme weather in northern mid-latitudes linked to cryosphere loss - Q Tang
A cause of the AO
/media/loftslag/Mid-Latitudes-Agenda1_nov2013EH.pdf
of melt water from glaciated
areas in long integrations for a warming climate.
Glacier dynamics
This problem can be qualitatively analysed by considering the continuity equation for ice vol-
ume, which may be expressed as
¶h
¶t
+
¶q
¶x
= b or
¶h
¶t
+~ ~q = b ; (1)
for a one-dimensional ice flow channel or an ice cap that flows in two horizontal dimensions,
respectively. h is ice thickness, q or ~q/media/ces/ces-glacier-scaling-memo2009-01.pdf
a precipitation value from a given location based on values
from a regular gridded dataset. ................................................................................................. 28
Figure 7. Scatterplots and Q–Q plots comparing daily precipitation from the ICRA dataset and
observations with different extraction methods for station Eskifjörður. .................................. 30
/media/vedurstofan-utgafa-2020/VI_2020_008.pdf
indicate a warming of climate that is
largest in winter and increases from the Atlantic Ocean towards the Arctic Ocean and
northern Russia. This warming is quite large compared with natural interdecadal temperature
variability. Thus, with the exception of the North Atlantic area, there is already during the
decade 2011-2020 at least a 95% probability that the 10-year annual mean temperature
/media/ces/raisanen_ruosteenoja_CES_D2.2.pdf
emission scenario were even
greater, on average 5.1% units (Fig. 5), indicating that the GCMs are
a greater source of uncertainty than the choice of emission sce-
nario or RCM.
The flow regimes in different regions in Finland are demon-
strated with the five example hydrographs of the reference period
and of 2070–2099 (Fig. 8a–e, see Fig. 1c for locations). In northern
(Fig. 8a) and central (Fig. 8b/media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf
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
/media/ces/GA_2009_91A_4_Andreassen.pdf
Based on a report by
Verta et al. (2007)
92.
5
93.
0
93.
5
94.
0
94.
5
95.
0
M A MJ F J J A S O N D
Mean 19702000
Min and max 1970–2000,
natural rating curve
Target water level zone 1
Target water level zone 2
Q=+20%
Q=+10%
Q= 0%
Q=15%
Q=30%
92.90 m snow target 1
92.70 m snow target 2
Water level (m
)
Month
the regulation limits Lake Syväri has target water level zones, which are not legally
/media/ces/Water_resources_man_Veijalainen_etal.pdf
on Climate Change best estimates for the global mean temperature
change by the end of the 21st century vary from 1.8 qC to 4.0 qC between the SRES scenarios
with the smallest (B1) and the largest (A1FI) greenhouse gas emissions (IPCC 2007). For
shorter time horizons, however, the scenario uncertainty is much smaller. On one hand, there
is inertia in the socio-economical system
/media/ces/D2.3_CES_Prob_fcsts_GCMs_and_RCMs.pdf