© Benaki Phytopathological Institute
Uncertainty in pest risk analysis
7
Figure 1A.
Uncertainty about parameter values
was described here by uniform distribu-
tions defined with lower and upper bounds
set equal to ± 20% of the estimated parame-
ter values reported by Magarey
et al
. (2005):
T
min
~
Unif
(0.8, 1.2),
T
max
~
Unif
(24, 36),
T
opt
~
Unif
(20, 30),
W
min
~
Unif
(38.4, 57.6),
W
max
~
Unif
(115.2,
172.8). The choice of ±20% was done here in
order to study the consequence of a mod-
erate uncertainty (the coefficient of varia-
tion of the uniform distribution was equal
to 28%) on the model output. Other choic-
es are of course possible.
Ten thousands parameter values were
randomly generated from the uniform dis-
tributions defined above by Monte Carlo
sampling. Due to an overlap of the distri-
butions of
T
opt
and
T
max
, a constraint on pa-
rameter values was considered at this step
in order to satisfy
T
max
>
T
opt
. The 10,000 corre-
sponding responses of
W
vs.
T
were comput-
ed and a sample of 20 out of the 10,000 re-
sponse curves was displayed in Figure 1B for
illustration. The distribution of the 10,000
response curves was summarized in Figure
1C by the percentiles 1%, 10%, 50% (medi-
an), 90%, 99%. The results showed that the
uncertainty was more important when the
temperature during the wetness period
T
was close to 25°C i.e. the estimated optimal
temperature for the fungus (Figure 1C). The
distribution of
W
obtained for
T
=25°C was
skewed (Figure 1D); the median was equal to
Figure 1.
Predicted wetness duration requirements for infection of bean foliage
by
Sclerotinia sclerotiorum
.
A: Predictions
obtained with the parameter values reported by Magarey
et al.
(2005). B: Sample of 20 response curves generated by Mon-
te Carlo simulation. C: Percentiles 1%, 10%, 50%, 90% and 99% of the 10,000 simulated wetness duration requirements in
function of the temperature. D: Distribution of the 10,000 simulated wetness duration requirements for
T
=25°C.
1,2,3,4,5,6,7,8 10,11,12,13,14,15,16,17,18,19,...34