Seasonal Outlook

For January 2026, above-normal rainfall is predicted over much of the northeastern and southern Maritime Continent based on the multi-model ensemble (Figure 1). Below-normal rainfall is predicted over parts of the central Maritime Continent. For both regions, there is (more than six models, Figure 2) predict above-normal rainfall as the dominant tercile for the northeastern regions and below-normal rainfall as the dominant tercile over central Borneo.

For Mainland Southeast Asia, below-normal rainfall is predicted over the northwestern portion (Figure 1) by most models (more than six models, Figure 2). Elsewhere in Mainland Southeast Asia there is little agreement between the models.

Model skill is good for predicting above-normal rainfall over the northeastern Maritime Continent. Model skill is low to moderate for the other regions mentioned.

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Figure 1: Rainfall tercile summary predictions of the multi model ensemble for January 2026 (contains modified Copernicus C3S information).	Figure 2: Number of models in agreement in the multi-model ensemble for the dominant tercile for January 2026. Where there no dominant tercile, it refers to the number of models with near-normal tercile (contains modified Copernicus C3S information).

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Figure 5: Average climatological rainfall’s lower tercile boundary for December based on CHIRPS (reference period: 1991-2020).	Figure 6: Average climatological rainfall’s upper tercile boundary for December based on CHIRPS (reference period: 1991-2020).

The qualitative outlook is assessed for the region in general. For specific updates on the national scale, the relevant ASEAN National Meteorological and Hydrological Services should be consulted. More outlook and verification plots, including for tercile and quintile probabilistic forecasts for rainfall, are in the “Model products and verification: NCEP, ECMWF, UK Met Office” on the SEA-RCC Network LRF Node webpages.

For JFM 2026, an increase in chance of below-to near-normal rainfall is predicted for much of the equatorial region, with an increase of above-normal rainfall elsewhere in the Maritime Continent, based on the multi-model ensemble (Figure 1). For above-normal rainfall, most models agree for the northeastern part and southern-most part of the region (more than six models) with some models in agreement elsewhere (4 – 6 models, Figure 2). For below-normal rainfall, most models (more than six models) agree for the central equatorial region with little agreement for much of the rest of the equatorial region (less than 4 models).

For Mainland Southeast Asia, an increase in chance of above-normal rainfall is predicted over the southern portion and below-normal rainfall over the northwestern portion, with no dominant tercile elsewhere. Most models (more than 6 models) agree on the region for below-normal, with some models agreeing (4 – 6) for southern Mainland Southeast Asia. Elsewhere in Mainland Southeast Asia no dominant tercile is predicted.

Model skill is good over the northern half of the Maritime Continent for predicting above-normal rainfall, and low to moderate for the southern Maritime Continent. Model skill is low to moderate for below-normal rainfall over northwestern Mainland Southeast Asia and the equatorial region.

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Figure 1: Rainfall tercile summary predictions of the multi model ensemble for JFM 2026 (contains modified Copernicus C3S information).	Figure 2: Number of models in agreement in the multi-model ensemble for the dominant tercile for JFM 2026. Where there no dominant tercile, it refers to the number of models with near-normal tercile (contains modified Copernicus C3S information).

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Figure 5: Average climatological rainfall’s lower tercile boundary for JFM based on CHIRPS (reference period: 1991-2020).	Figure 6: Average climatological rainfall’s upper tercile boundary for JFM based on CHIRPS (reference period: 1991-2020).

The qualitative outlook is assessed for the region in general. For specific updates on the national scale, the relevant ASEAN National Meteorological and Hydrological Services should be consulted. More outlook and verification plots, including for tercile and quintile probabilistic forecasts for rainfall, are in the “Model products and verification: NCEP, ECMWF, UK Met Office” on the SEA-RCC Network LRF Node webpages.

For January 2026, above-normal temperature is predicted over most of the Maritime Continent and northern Mainland Southeast Asia, with the highest likelihood over the eastern Maritime Continent, based on the multi-model ensemble (Figure 1). Most of the models (more than six models, Figure 2) predict above-normal temperature as the most likely tercile for the mentioned regions. Elsewhere, no dominant tercile is predicted (Figure 1). Model skill for predicting above-normal temperature is relatively good for most of the Maritime Continent and low to moderate for Mainland Southeast Asia.

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Figure 1: Temperature tercile summary predictions of the multi model ensemble for January 2026 (contains modified Copernicus C3S information).	Figure 2: Number of models in agreement in the multi-model ensemble for the dominant tercile for January 2026. Where there no dominant tercile, it refers to the number of models with near-normal tercile (contains modified Copernicus C3S information).

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Figure 5: Average climatological temperature for January based on ERA5 (reference period: 1991-2020).

The qualitative outlook is assessed for the region in general. For specific updates on the national scale, the relevant ASEAN National Meteorological and Hydrological Services should be consulted. More outlook and verification plots, including for tercile and quintile probabilistic forecasts for temperature, are in the “Model products and verification: NCEP, ECMWF, UK Met Office” on the SEA-RCC Network LRF Node webpages.

For JFM 2026, above-normal temperature is predicted over most of the Maritime Continent (Figure 1). Most models (more than six models) predict above-normal temperature as the most likely tercile over this region (Figure 2). Model skill for predicting above-normal temperature is good for most of the Maritime Continent.

For Mainland Southeast Asia, above-normal temperature is predicted over the western portion, with near- to above-normal temperature elsewhere (Figure 1). Most models agree on above-normal temperature as the most likely tercile for western Mainland Southeast Asia, with some models agreeing on the most likely tercile for central and eastern Mainland Southeast Asia (Figure 2). Model skill is generally moderate to good for predicting above-normal temperature for Mainland Southeast Asia and low for predicting near-normal temperature.

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Figure 1: Temperature tercile summary predictions of the multi model ensemble for JFM 2026 (contains modified Copernicus C3S information).	Figure 2: Number of models in agreement in the multi-model ensemble for the dominant tercile for JFM 2026. Where there no dominant tercile, it refers to the number of models with near-normal tercile (contains modified Copernicus C3S information).

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Figure 5: Average climatological temperature for DJF based on ERA5 (reference period: 1991-2020).

The qualitative outlook is assessed for the region in general. For specific updates on the national scale, the relevant ASEAN National Meteorological and Hydrological Services should be consulted. More outlook and verification plots, including for tercile and quintile probabilistic forecasts for temperature, are in the “Model products and verification: NCEP, ECMWF, UK Met Office” on the SEA-RCC Network LRF Node webpages.