The Meteorological ServicesDivision of Singapore provides a daily updated schematic of areasaffected by fires and smoke haze within the South East Asian region.Additionally, regional surface winds are displayed.
Latest map of surface winds andsmoke haze/hot spots observed over cloud-free areas (Source: Meteorological ServicesDivision of Singapore)
Forecastsof winds and surface pressure for the South East Asian region basedon Numerical Weather Product Models are also providedby Meteorological ServicesDivision of Singapore.
The Integrated Forest Fire Management Project (IFFM) in Samarinda provides regulary updatedmaps generated by NOAA-AVHRR showing active land-use fires and wildfires inBrunei and the Indonesian and Malaysian provinces on BorneoIsland.
Latest fire overview map for Borneo (Source: IFFM FireMaps)
The Forest Fire Prevention and Control Project (FFPCP) The Forest Fire Prevention and Control Project (FFPCP) in Palembang (Sumatra) closed on 30 November 2001. The South Sumatra Forest Fire Management Project (SSFFMP) is expected to start within the second half of the year 2002 and will continue the work of FFPCP. Meanwhile the daily fire map (hot-spot) and monthly drought index for Sumatra will continue to be updated from time to time.
Latest fire overview map for Sumatra (Source: FFPCP)
South East AsiaFire Monitoring by ANDES The Asia Pacific Network for Disaster Mitigation using Earth ObservationSatellite (ANDES) provides daily fire maps of mainland and insular South EastAsia. The latest maps can be accessed through the ANDESwebsite. The map below shows the latest fire map of mainland SE Asia(Thailand, Myanmar, Lao, Cambodia, Viet Nam).
LatestANDESfire location map of mainland South East Asia. The map is generated on the basis of two satellite sensors (NOOA-AVHRR, DMSP/OLS). Source: ANDES
The GFMC displays selected and daily updated global andAsia-Pacific ExperimentalClimate Prediction Center (ECPC) Fire Weather Forecasts.These examples allow a quicklook and provide daily and weekly total forecastsand forecasted monthly totals. For background information refer to the ECPCproducts description page.
Fire Weather Index (FWI) forecast for thisweek (left) and the predictedFWI total for next month (right) for the Western Pacific (1-3) and the PacificOcean (4-6) regions. The weekly total forecast and the monthly forecasted total refer to 00:00 hrsUTC,which is local noon at dateline (180° longitude). Forecast time is 12:00 hrsnoon UTC (Greenwich)corresponding to local evening time in mainland and insular SE Asia. (Source: ECPCFire Weather Index Forecast)
The ASEANFire Weather Information System (ASFWIS) is a co-operation betweenASEAN and the Canadian Forest Service. It provides maps describing the currentfire weather situation in South East Asia. This system is based upon theCanadian Forest Fire Danger Rating System (CFFDRS) (for further infomation tothe CFFDRS refer to ASFWIS). Studies have shown that the CFFDRS is applicableoutside of Canada. Currently it is also used in a modified form in New Zealand(see References). In NewZealand the Fire Weather Indices Fine Fuel Moisture Code (FFMC) and the InitialSpread Index (ISI) represent the fire danger in the scrublands. The DuffMoisture Code (DMC) is also applicable in South East Asia, because itpotentially describes the moisture state of the upper peat layers in peat andpeat swamp forests. All three parameters may serve as a suitable indicator offorest fire danger in South East Asia.
The updated ASFWIS maps show fire weather, fuel conditions andfire behaviour parameters for South East Asia:
Fine Fuel Moisture Code
Duff Moisture Code
Initial Spread Index
Fire Weather Index
Latest output maps of the ASFWIS (Source: ASFWIS)
Haze Prevention Group The industrial initiative to combat haze in SE Asia provides a website which includes information about the objectives of this industrial initiative and projects implemented to reduce wildfires and haze in Indonesia.
The ASEAN Haze Action Online provides the following information:
Monitoring: Hyperlinks to institutions involved in regional monitoring and prediction of fire and smoke haze