Current ENSO Information
Summary of ENSO Model Forecasts
16 October 2003
Note on interpreting model
forecasts
The following graph and table show forecasts made by dynamical and
statistical
models for SST in the Nino 3.4 region for nine overlapping 3-month
periods.
Note that the expected skills of the models, based on historical
performance,
are not equal to one another. The skills also generally decrease as the
lead time increases. Thirdly, forecasts made at some times of the year
generally have higher skill than forecasts made at other times of the
year--namely,
they are better when made between June and December than when they are
made between February and May. Differences among the forecasts of the
models
reflect both differences in model design, and actual uncertainty in the
forecast of the possible future SST scenario.
Discussion of current forecasts
The set of dynamical and statistical model forecasts issued during late
September and early October 2003 shows a moderately small range of
possible sea surface
temperature conditions for the coming 2 to 10 months (October -
November
- December 2003 through June - July - August 2004).
Most
models are indicating near-neutral conditions over the coming several
months.
A few models, however, are forecasting weak warm conditions,
Table 1. Forecast SST Anomalies (deg C)
in the
Nino 3.4 Region
| |
Seasons (2003-2004) |
|
Model
|
OND
|
NDJ
|
DJF
|
JFM
|
FMA
|
MAM
|
AMJ
|
MJJ
|
JJA |
|
Dynamical models |
|
NASA/NSIPP
model
|
0.3
|
0.3
|
0.3
|
0.4
|
0.5
|
0.7
|
0.8
|
1.0
|
1.2
|
|
NCEP
Coupled model
|
0.3
|
0.4
|
0.4
|
0.4
|
0.4
|
0.3
|
0.4
|
0.2
|
|
|
Scripps
Inst. model
|
0.4
|
0.5
|
0.6
|
0.6
|
0.6
|
0.6
|
0.7
|
0.7
|
0.7
|
|
Lamont-Doherty
model
|
0.4
|
0.3
|
0.2
|
0.2
|
0.2
|
0.2
|
0.3
|
0.3
|
-0.2
|
|
|
CSIRO
model
|
0.7
|
0.8
|
0.8
|
0.7
|
0.4
|
0.3
|
0.2
|
0.5
|
|
|
Japan
Met. Agency
|
-0.1
|
-0.1
|
-0.1
|
-0.0
|
0.0
|
0.0
|
|
|
|
|
ZHANG
ICM model
|
-0.1
|
-0.2
|
-0.3
|
-0.4
|
-0.4
|
-0.4
|
-0.5
|
-0.4
|
-0.4
|
|
POAMA
model
|
0.2
|
0.3
|
0.4
|
0.4
|
0.4
|
0.4
|
0.3
|
0.1
|
0.2
|
|
|
ECMWF
model
|
0.2
|
0.2
|
0.2
|
|
|
|
|
|
|
|
ECHAM/MOM
|
-
|
|
|
|
|
|
|
|
|
|
KMA
SNU (Korea) model
|
0.3
|
0.3
|
0.2
|
0.1
|
0.0
|
0.0
|
-0.0
|
-0.0
|
-0.0
|
|
Average,
dynamical
models
|
0.3
|
0.3
|
0.3
|
0.3
|
0.3
|
0.3
|
0.3
|
0.3
|
|
|
Statistical models |
|
NCEP/CPC
Markov model
|
0.2
|
0.3
|
0.4
|
0.4
|
0.4
|
0.4
|
0.5
|
0.5
|
0.5
|
|
NOAA/CDC
Linear Inverse
|
0.3
|
0.2
|
0.2
|
0.1
|
0.0
|
-0.0
|
-0.1
|
-0.1
|
-0.1
|
|
Dool
Constructed Analog
|
-0.0
|
-0.1
|
-0.0
|
-0.0
|
-0.0
|
-0.1
|
-0.1
|
-0.0
|
-0.0
|
|
NCEP/CPC
Can Cor Anal
|
0.0
|
0.0
|
0.1
|
0.1
|
0.3
|
0.4
|
0.5
|
0.5
|
0.6
|
|
Landsea/Knaff
CLIPER
|
0.0
|
-0.0
|
-0.1
|
-0.2
|
-0.2
|
-0.1
|
-0.1
|
-0.2
|
-0.4
|
|
Univ.
BC nonlinear CCA
|
0.0
|
0.1
|
0.2
|
0.3
|
0.4
|
0.4
|
0.5
|
0.5
|
0.6
|
|
FSU Regression
|
0.6
|
0.6
|
0.6
|
0.5
|
0.4
|
0.2
|
0.0
|
-0.1
|
-0.2
|
|
Average,
statistical
models
|
0.1
|
0.1
|
0.1
|
0.1
|
0.1
|
0.2
|
0.2
|
0.2
|
0.2
|
|
Average,
all models
|
0.2
|
0.2
|
0.2
|
0.2
|
0.2
|
0.2
|
0.2
|
0.2
|
0.2
|
Notes on the data
Only models producing forecasts on a monthly basis are included. This
means
that some models whose forecasts appear in the Experimental Long-Lead
Forecast
Bulletin (produced by COLA) do not appear in the table.
The SST anomaly forecasts are for the 3-month periods shown,
and are
for the Nino 3.4 region (120-170W, 5N-5S). Often, the anomalies are
provided
directly in a graph or a table by the respective forecasting centers
for
the Nino 3.4 region. In some cases, however, they are given for 1-month
periods, for 3-month periods that skip some of the periods in the above
table, and/or only for a region (or regions) other than Nino 3.4. In
these
cases, the following means are used to obtain the needed anomalies for
the table:
- Temporal averaging,
- Linear temporal interpolation
- Visual averaging of values on a contoured map
- Regional SST anomaly adjustment using the climatological
variances of
one
region versus that of another
As an example of the last case, suppose only the Nino 3 anomaly is
provided.
The Nino 3.4 anomaly is then obtained by decreasing the Nino 3 anomaly
by the factor defined by the ratio of the year-to-year variabilities of
Nino 3.4 to the year-to-year variance of Nino 3 SST, for the 3-month
season
in question.
The anomalies shown are those with respect to the base period
used to
define the normals, which vary among the groups producing model
forecasts.
They have not been adjusted to anomalies with respect to a common base
period. Discrepancies among the climatological SST resulting from
differing
base periods may be as high as a quarter of a degree C in the worst
cases.
Forecasters are encouraged to use the standard 1971-2000 period as the
base period, or a period not very different from it.
Top of Page
|
