Climate Outlook - Rainfall
ASIA October 1997 - March 1998
The IRI Climate Forecast Division has prepared this Climate Forecast Outlook for Asia for October 1997 - March
1998. Of special relevance in the preparation of this Outlook has been the exceptionally strong El Niño episode now
underway in the tropical Pacific, and the expectation that strong El Niño conditions will persist through much of the
forecast period. This present El Niño is comparable, if not stronger than the major event in 1982-83 (at the time the
strongest of the century) which was associated with severe climate anomalies around the globe that caused major
socio-economic losses in many regions.
METHODS -
This Outlook was prepared using the following procedures and information:
A) Statistical analyses of the observed historical response of the climate system over Asia during the strongest 12
El Niño events over the period 1890-1989.
B) Coupled ocean-atmosphere model predictions of tropical Pacific sea surface temperatures (SST) covering the forecast period. Particularly heavy weighting has been given to predictions from the coupled model operated by the
NOAA National Centers for Environmental Prediction, Climate Modeling Branch. This model suggests moderating,
but still relatively strong, El Niño conditions will persist in the tropical Pacific through the forecast period.
C) Global atmospheric circulation model (GCM) predictions of the atmospheric response to the present and predicted
SST patterns in the tropical Pacific (especially) and in other oceans as well. These models have been shown to reproduce important aspects of the climatic response to El Niño in simulations covering such significant events as the
1982-83 event mentioned above.
The procedures, models, and data used to derive this Climate Outlook are somewhat different from those used by the
national meteorological services in Asia. Thus, this product may differ from the official forecasts issued in those
areas. This Outlook has been prepared in the time available, using all information that was reasonably accessible.
Inclusion of other climate information and guidance requires further arrangements. The IRI is engaged in establishing
such collaborative arrangements with the goal of improving its capability to provide the best and most complete global climate guidance. The Climate Outlook for January-March, especially, are dependent of the quality of the SST
predictions. For the tropical Pacific, these predictions can be expected to provide useful information. However, there
is considerable spread in coupled model predictions concerning the rate at which tropical Pacific SSTs will decline in
early 1998 (assuming the El Niño peaks near the end of 1997). This spread in predictions is a primary source of
uncertainty in the Outlook provided here, which assumes that tropical Pacific SSTs will decline at a modest rate during early 1998. Another possible source of uncertainties is the spread in prediction of the Indian ocean SSTs, which
may effect parts of southern Asia. Warm SST anomalies in central/eastern tropical Pacific, associated with El Niño,
are generally accompanied by warm SST anomalies in the central tropical Indian Ocean and cool SST anomalies in
the western Pacific / eastern Indian Ocean. Also, a significant positive trend in central tropical Indian Ocean SSTs has
been noticed over the last several decades. What is uncertain is the detailed evolution of SST anomalies in the Indian
Ocean and their exact spatial pattern, which may influence impacts locally. It is also possible that tropical and/or mid-
latitude Atlantic SSTs may play some role in modulating rainfall changes over central Asia.The impacts of possible
changes in Atlantic SSTs during the forecast period have not been considered in this report. It is also stressed that the
current status of seasonal-to-interannual climate forecasting allows prediction of spatial and temporal averages, and
does not fully account for all factors that influence regional and national climate variability. This Outlook is relevant
only to seasonal time scales and relatively large areas; local variations should be expected. For further information
concerning this and other guidance products, users are strongly advised to contact their National Meteorological Services.
OUTLOOK -
This Outlook covers two seasons; October-December 1997 and January-March 1998. Maps are given showing
expected probabilities that the seasonal rainfall will fall into the driest third of the years, the middle third of the years,
or the wettest third of the year (see Map Caption below for further details, cautions and caveats).
October-November-December 1997:
The map is dominated by the following main regions of enhanced probabilities of rainfall anomalies:
A) Slightly enhanced probability for normal-to-below normal rainfall over much of Siberia.
B) Slight enhancement of probabilities for below normal rainfall extending from south of the Tibetan Plateau into
western China. The probability for below normal precipitation is marginally higher over the northeastern coast of
Arabian Sea and the northern coast of the Bay of Bengal.
C) Slightly enhanced probability for above normal precipitation over parts of western Asia, extending from the Middle East into central Siberia.
D) Enhanced probability for above normal precipitation over eastern China, particularly along the subtropical Pacific
coast.
E) Slightly enhanced probability for above normal precipitation over the southern-most part of India. However, note
that the guidance for this region is based on the statistical analyses; this region experienced below normal rainfall during this season in 1972 and 1982.
January-February-March 1998:
The pattern of probabilities shows some similarities to that for October - December 1997. The main differences can
be described as follows:
i) The region of slightly enhanced probability for below normal rainfall over Siberia (see A above) extends across all
of northern Siberia.
ii) The area of slightly enhanced probability for above normal precipitation over western and central parts of Asia
(see C above) shifts east and extends to the Pacific coast. Probabilities for above normal precipitation in the center of
this area are higher than in October - December.
The probabilities given here are based mainly on the statistical analysis of the historical data. Further confidence is
added from the atmospheric GCMs forced with a variety of predicted SST scenarios including persistence, statistical
estimates, and dynamical forecasts. These atmospheric GCM climate predictions are in agreement with each other
and with the statistical analysis for the region of enhanced probabilities for below normal precipitation over the southern part of Asia and for the region of enhanced probabilities of above normal precipitation over the subtropical part of
eastern Asia.
Map Caption
For each sub-region, during the 1997-98 season, the likelihood associated with this Outlook is represented by the
probabilities of that sub-region receiving below-normal, near-normal or above normal rainfall (see keys on Maps),
based on model results and expert interpretation. Over many years, rainfall will fall equally frequently into three categories. For example, between 1900 and 1989 30 years will fall into the below-normal category, 30 years will be normal and 30 will fall into the above-normal category.
If all three outcomes were equally likely this season, the chance for each category would be 33%. A qualitative outlook of climatology ("C") indicates that there is no basis for favoring any particular category. Otherwise, for example,
in the case of the northern half of Siberia in January-March 1998 (Map B), there is a 25% probability that the rainfall
will be in the wettest third of the years, a 30% chance it will be in the near-normal third of the years, and a 45%
chance that the rainfall will be in the driest third of the years. Boundaries between sub-regions should be considered
as transition zones, and their location considered to be only qualitatively correct.
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