TS.1b, TS.2b}
Global anthropogenic GHG emissions
F-gases
CO2 from fossil fuel use and other sources
CH4 from agriculture, waste and energy
CO2 from deforestation, decay and peat
N2O from agriculture and others
GtC
O
2-eq / y
r
28.7
35.6
39.4
44.7
49.0
The largest growth in
GHG emissions between 1970 and 2004
has come from energy supply, transport and industry, while resi-
dential and commercial
/media/loftslag/IPPC-2007-ar4_syr.pdf
Annual
report
? Icelandic Met O?e
Bústaðavegur –
Reykjavík
Iceland
Editors:
Sigurlaug
Gunnlaugsdóttir
Sigrún Karlsdóttir
Ingvar Kristinsson
Theódór F. Hervarsson
Design and layout:
Vinnustofa
Atla Hilmarssonar
Printing:
Oddi
Cover photo:
Oddur Sigurðsson
ISSN -
The Icelandic Meteorological O?ce, IMO, is responsi -
ble for real-time monitoring and forecasting
/media/vedurstofan/utgafa/arsskyrslur/VED_AnnualReport-2013_screen.pdf
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
Fr
am
ew
o
rk
Cr
ite
ria
u
se
d
M
ain
pu
rp
o
se
o
fframewor
k
Participator
y
m
od
ell
in
g
purpos
e
Particip
ator
y
structur
e
Contro
lo
f
ow
of
in
for
m
a
tio
n
betwee
n
stakeholder
s
Timin
g
of event
s
Participatio
n
mod
e
Mo
de
l
typ
e
Participator
y
m
et
ho
ds
use
d
Actor
sinvolve
d
(at
eac
h
/media/loftslag/Hare-2011-ParticipatoryModelling.pdf
(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
Differences between the three TDM measures were
assessed with repeated measures ANOVAs and post hoc
test with Bonferroni correction (F-values, levels of sig-
nificance, and effect sizes are presented in Table 3).
2The univariate ANOVAs for the two levels of increased tax on fuel,
show that the increase with five SEK/liter fuel was perceived to lead to a
larger infringement on freedom to choose travel mode
/media/loftslag/Eriksson_Garvill_Nordlund_2006.pdf
@vedur.is),
P. Crochet, Th. Thorsteinsson, O. Sigurðsson, B. Einarsson
Institute of Earth Science, University of Iceland and DMI
H. Björnsson, S. Guðmundsson, F. Pálsson, G. Aðalgeirsdóttir
Section for Glaciers, Snow and Ice, NVE
L. M. Andreassen, K. Melvold, H. Elvehøy
Uppsala University and Geophys. Inst., University of Alaska
R. Hock, V. Radic
Geocenter Copenhagen, GEUS
A. Ahlstrøm, H
/media/ces/ces_flyer_glacierssnowandice.pdf
of Time-
Variable Gravity Show Mass Loss in Antarctica. Science,
311, 5768, 1754 – 1756. DOI: 10.1126/science.1123785.
Wouters, B., D., Chambers and E. J. O. Schrama. 2008.
GRACE observes small-scale mass loss in Greenland.
Geophys. Res. Lett., 35, L20501, doi:10.1029/2008GL034816.
Meier, F. M., and others. 2007. Glaciers Dominate Eustatic
Sea-Level Rise in the 21st Century. Science, 317,
1064–1067
/media/ces/Johannesson_Thomas_CES_2010.pdf
in Finland
Noora Veijalainen a,*, Eliisa Lotsari b, Petteri Alho b, Bertel Vehviläinen a, Jukka Käyhkö b
a Freshwater Centre, Finnish Environment Institute, Mechelininkatu 34a, P.O. Box 140, FI-00251, Helsinki, Finland
b Department of Geography, FI-20014 University of Turku, Turku, Finland
a r t i c l e i n f o
Article history:
Received 7 January 2010
Received in revised form 13 June 2010
Accepted
/media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf
o
n
4
.
1
X
s
e
s
s
i
o
n
4
.
2
X
s
e
s
s
i
o
n
4
.
3
X
s
e
s
s
i
o
n
4
.
4
X
s
e
s
s
i
o
n
4
.
5
X
F
r
i
d
a
y
3
1
.
8
p
l
e
n
a
r
y
4
X
s
e
s
s
i
o
n
5
.
1
X
s
e
s
s
i
o
n
5
.
2
Xsession 5.3 X
sess on 5.4 X
session 5.5 X
lunch
plenary panel 2 X
TOTAL TURNS PER PERSON 2 2 2 2 2 2 3 2 3 2 3 2 3 2
/media/loftslag/Guidelines2-for-rapporteurs.pdf