- 2 -
Table 1. Total Concentration Colour Code Standard
Colour
alternative prime
RGB
colour model
Total concentration
(definition from WMO
Nomenclature)
Number
from WMO
Nomenclature
000-100-255 Ice free 4.2.8
150-200-255 Less than one tenth (open water) 4.2.6
140-255-160 1/10 - 3/10 (very open ice) 4.2.5
255-255-000 4/10 - 6/10 (open ice) 4.2.4
255-125-007 7/10 - 8/10 (close ice) 4.2.3
255
/media/hafis/frodleikur/ice-chart_colour-code-standard.pdf
BIOMATH, Ghent University, Gent, Belgium
d Water Quality Modelling modelEAU, University Laval, Quebec, Canada
Received 20 December 2005; received in revised form 5 February 2007; accepted 7 February 2007
Available online 27 April 2007
Abstract
A terminology and typology of uncertainty is presented together with a framework for the modelling process, its interaction with the broader
water
/media/loftslag/Refsgaard_etal-2007-Uncertainty-EMS.pdf
aceptance
of solution
Creating conditions
for implementation
of solution
Implementation
of solution
Monitoring
& Evaluation
Knowledge
elicitation; system
identification
Poor
functioning
system
Well
functioning
system
5
Lectures –
Creating awareness
Forum 1
15.9.04
Forum 2
3.11.04
6
Cognitive mapping
Knowledge Elicitation
Forum 1
15.9.04
Forum 2
3.11.04
Interviews
Jan/Feb 05
7
Forum 1
/media/loftslag/Hare_2-participation.pdf
and to evaluate
the need for further and more detailed case studies.
2. Study area
2.1. Climate and hydrology in Finland
The climate of Finland is controlled by several factors such as
latitudinal gradient, maritime climate from the Atlantic Ocean
and continental climate from Eurasia, the Scandinavian mountain
range and the Baltic Sea (Atlas of Finland, 1987; Käyhkö, 2004).
In 1971–2000 the average
/media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf
-scale Category
P
e
r
c
e
n
t
a
g
e
o
f
C
a
t
e
g
o
r
y
F
a
t
a
l
i
t
i
e
s
Permanent Homes
Casualties and Timing
Casualties and Time of Day
150
200
250
I
n
d
e
x
V
a
l
u
e
Fatalities
0
50
100
Overnight Morning Early Afternoon Late Afternoon Late Evening
I
n
d
e
x
V
a
l
u
e
Injuries
Nocturnal Tornadoes
7
8
9
10
R
a
t
i
o
N
i
g
h
t
t
o
O
t
h
e
r
T
i
m
e
s
0
1
2
3
4
5
6
F0 F1 F2 F3 F4
F
/media/loftslag/Tornado_Impacts_-_FMI_Presentation.pdf
not as wet as 2007. The precipitation anomalies were largest in the Northwest. The year began with heavy precipitation, but the first part of the summer was very dry. September was very wet. The number of days with precipitation,considering the whole year, was close to average.
There was slightly more snowfall than has typical since 2000, but it barely reached the average falls of the preceding
/about-imo/news/2009/nr/1438
not as wet as 2007. The precipitation anomalies were largest in the Northwest. The year began with heavy precipitation, but the first part of the summer was very dry. September was very wet. The number of days with precipitation,considering the whole year, was close to average.
There was slightly more snowfall than has typical since 2000, but it barely reached the average falls of the preceding
/about-imo/news/nr/1438
not as wet as 2007. The precipitation anomalies were largest in the Northwest. The year began with heavy precipitation, but the first part of the summer was very dry. September was very wet. The number of days with precipitation,considering the whole year, was close to average.
There was slightly more snowfall than has typical since 2000, but it barely reached the average falls of the preceding
/about-imo/news/2009/nr/1438/
not as wet as 2007. The precipitation anomalies were largest in the Northwest. The year began with heavy precipitation, but the first part of the summer was very dry. September was very wet. The number of days with precipitation,considering the whole year, was close to average.
There was slightly more snowfall than has typical since 2000, but it barely reached the average falls of the preceding
/about-imo/news/nr/1438/