Seasonal Outlook

For June 2025, above-normal rainfall is predicted for much of the southern Maritime Continent based on the multi-model ensemble (Figure 4). The NCEP, ECMWF and UK Met Office models (Figures 1, 2, and 3, respectively) predict an increased chance of above-normal rainfall over much of the region, with the highest probability over the southeastern Maritime Continent. Elsewhere in the Maritime Continent, models predict either mix of below- to near-normal or no dominant tercile rainfall. The model skill for above-normal rainfall moderate to good in the southern Maritime Continent and low to moderate elsewhere, while the skill for near-normal rainfall is low to moderate for the entire Maritime Continent.

For Mainland Southeast Asia, no dominant tercile is predicted for much of the region, based on the multi-model ensemble (Figure 4). The ECMWF model (Figure 2) predicts an increased chance of above-normal rainfall for parts of the eastern half Mainland Southeast Asia, while the UK Met Office model (Figure 3) predicts no dominant tercile, and the NCEP model (Figure 1) predicts a mix of near- to below-normal over parts of the region. Model skill is low for much of Mainland Southeast Asia at this time of the year.

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Figure 1: Rainfall tercile summary predictions of NCEP model for June 2025 (contains modified Copernicus C3S information).	Figure 2: Rainfall tercile summary predictions of ECMWF model for June 2025 (contains modified Copernicus C3S information).

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Figure 3: Rainfall tercile summary predictions of UK Met Office model for June 2025 (contains modified Copernicus C3S information).	Figure 4: Rainfall tercile summary predictions of multi-model ensemble model for June 2025 (contains modified Copernicus C3S information).

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Figure 5: Average climatological rainfall’s lower tercile boundary for June based on CHIRPS (reference period: 1991-2020).	Figure 6: Average climatological rainfall’s upper tercile boundary for June 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 JJA 2025, above-normal rainfall is predicted for much of the southern ASEAN region, with a slight increase in chance of below-normal rainfall over the northwestern portion, based on the multi-model ensemble (Figure 4). The UK Met Office and ECMWF models (Figures 3 and 2, respectively) predict above-normal rainfall over all of the eastern portion, while the NCEP model (Figure 1) predicts a mix of near- to above-normal rainfall for this region. For the northwestern portion, the NCEP model predicts the largest extent of below-normal rainfall covering with the highest confidence, while the ECMWF model predicts below- to near-normal rainfall, and the UK Met Office model predicts no increase in chance of below-normal rainfall over this region. Models’ skill is generally good for above-normal rainfall apart of over the Philippines, and moderate for below-normal rainfall over the western Maritime Continent.

For the northern ASEAN region, there is generally disagreement between the models (Figures 1 – 3). Overall, there is a slight increase in chance of above-normal rainfall over the central parts of Mailand Southeast Asia and the southern Philippines and no dominant tercile for much of the region based on the multi-model ensemble (Figure 4). Model skill is low to moderate for the northern ASEAN region at this time of the year.

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Figure 1: Rainfall tercile summary predictions of NCEP model for JJA 2025 (contains modified Copernicus C3S information).	Figure 2: Rainfall tercile summary predictions of ECMWF model for JJA 2025 (contains modified Copernicus C3S information).

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Figure 3: Rainfall tercile summary predictions of UK Met Office model for JJA 2025 (contains modified Copernicus C3S information).	Figure 4: Rainfall tercile summary predictions of multi-model ensemble model for JJA 2025 (contains modified Copernicus C3S information).

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Figure 5: Average climatological rainfall’s lower tercile boundary for JJA based on CHIRPS (reference period: 1991-2020).	Figure 6: Average climatological rainfall’s upper tercile boundary for JJA 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 June 2025, above-normal temperature is predicted over Southeast Asia, with high confidence over the Maritime Continent and slightly lower confidence over Mailand Southeast Asia, based on the multi-model ensemble (Figure 4). All three models (Figures 1 – 3) predict a high likelihood of above-normal temperature over the Maritime Continent. For Mainland Southeast Asia, the models predict above-normal temperature, but with lower likelihood for much of the region. Models’ skill for predicting above-normal temperature is good for most of Southeast Asia, while the skill for near-normal temperature is moderate for most of Mainland Southeast Asia.

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Figure 1: Temperature tercile summary predictions of NCEP model for June 2025 (contains modified Copernicus C3S information).	Figure 2: Temperature tercile summary predictions of ECMWF model for June 2025 (contains modified Copernicus C3S information).

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Figure 3: Temperature tercile summary predictions of UK Met Office model for June 2025 (contains modified Copernicus C3S information).	Figure 4: Temperature tercile summary predictions of multi-model ensemble model for June 2025 (contains modified Copernicus C3S information).

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Figure 5: Average climatological temperature for June 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 JJA 2025, an increase in chance of above-normal temperature is predicted over all of Southeast Asia based on the multi-model ensemble (Figure 4). All three models agree with high confidence on above-normal temperature over the Maritime Continent. For Mainland Southeast Asia, the ECMWF and UK Met Office models (Figures 2 and 3) predict the highest chance of above-normal temperature, while the NCEP model is slightly less confident on above-normal temperature in the southern parts of the region (Figure 1). Models’ skill for predicting above-normal temperature is good over most of Southeast Asia.

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Figure 1: Temperature tercile summary predictions of NCEP model for JJA 2025 (contains modified Copernicus C3S information).	Figure 2: Temperature tercile summary predictions of ECMWF model for JJA 2025 (contains modified Copernicus C3S information).

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Figure 3: Temperature tercile summary predictions of UK Met Office model for JJA 2025 (contains modified Copernicus C3S information).	Figure 4: Temperature tercile summary predictions of multi-model ensemble model for JJA 2025 (contains modified Copernicus C3S information).

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Figure 5: Average climatological temperature for JJA 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.