Canada fires smoke map

Welcome to the Canadian portal for information about wildland fire weather and smoke. From here you can access the BlueSky Canada smoke forecasts, fire canada fires smoke map forecasts, fire information, and the BlueSky Playground. The Weather Forecast Research Team at the University of British Columbia produces these research forecasts with support from multiple agencies.

Ground level concentration of particulate matter 2. The BlueSky Canada smoke forecast is our current best estimate of when and where wildfire smoke events may occur over the next two days. The map may not agree exactly with local smoke concentrations and timing, and should be used with care. For additional information please consult the FAQ. This BlueSky Canada smoke forecast is considered experimental because it is produced by a modeling system that is an ongoing research project and subject to uncertainties in fire data and emissions, weather forecasts, and smoke dispersion.

Canada fires smoke map

CONUS imaging sector and 10min observations over the entire western hemisphere full-disk imaging sector with two satellites positioned at Cumulative fire data statistics are calculated daily for all 50 U. Cumulative smoke data annual statistics are derived by aggregating daily Hazard Mapping System HMS smoke polygons into a 0. The exact location of a fire may differ depending on the spatial resolution of the data set from which the fire detection pixel originates, with spatial offsets typically ranging from 10ss m e. HMS fire and smoke data products are marked with the time stamp representing the corresponding satellite image acquisition observation time in Universal Time Coordinated UTC , and date using the Julian day calendar day of year for regular years, for leap years. In order to obtain U. Eastern, Central, Mountain and Pacific times, users must subtract 5, 6, 7, 8 hours from UTC time, respectively 4, 5, 6, 7 hours respectively, when daylight saving time is in effect. Increasing satellite view angles or distance between the fire and the satellite sub-point or image center line will lead to pixel area enlargement, effectively degrading the spatial resolution of the data and requiring larger fire areas for detection. Fire pixels do not translate into absolute fire area and their use should serve as a coarse indicator only. Due to the same reasoning described in FAQ-2 above, a fire detection can be produced for fires occupying small fractional areas of the pixel. In fact, only in relatively rare occasions will a fire occupy the entire footprint of a pixel those cases are typically reserved to large wildfires. As a result, use of the pixel area to estimate fire size could produce gross overestimation of the actual perimeter. Commission errors may be observed in the satellite fire products due to ambiguity between actively burning fires and other image features predominantly found during the sunlit part of the day. Those occurrences are typically associated with fresh burn scars and sandy soils that can cause an elevated signal in the mid-wave infrared MIR channel data. Users must also note that thermal anomalies linked to industrial activities e.

Data Sources. As fire and smoke conditions can change quickly, always check with your local health and emergency officials for the latest developments.

Ozone can be found here: AirNow. Search for Current Fire and Smoke Conditions in a city, state or area. See the User's Guide to learn more about Using the Map. Click this link to copy your current URL settings to the clipboard. You can then insert the URL into the bookmarks manager to maintain your current settings saved locations, ColorVision Assit preferences.

Smoke from wildfires in forests and grasslands can be a major source of air pollution for Canadians. The fine particles in the smoke can be a serious risk to health, particularly for children, seniors and those with heart or lung disease. Because smoke may be carried thousands of kilometres downwind, distant locations can be affected almost as severely as areas close to the fire. FireWork is an air quality prediction system that indicates how smoke from wildfires is expected to move across North America over the next 72 hours. As fire and smoke conditions can change quickly, always check with your local health and emergency officials for the latest developments. The FireWork system makes it possible to include the effects of wildfire smoke in forecasts of air quality by estimating the amount of pollution that will be added to the air.

Canada fires smoke map

A hotspot is a satellite image pixel with high infrared intensity, indicating a heat source. Hotspots from known industrial sources are removed; the remaining hotspots represent vegetation fires, which can be in forest, grass, cropland, or logging debris. A hotspot may represent one fire or be one of several hotspots representing a larger fire. Not all fires can be identified from satellite imagery, either because the fires are too small or because cloud cover obscures the satellite's view of the ground. It is a numeric rating of fire intensity. It combines the Initial Spread Index a numerical rating of the expected rate of fire spread and the Buildup Index a numerical rating of the total amount of fuel available for combustion. It is suitable as a general index of fire danger throughout the forested areas of Canada. Forecasted weather data provided by Environment Canada.

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National Interagency Fire Center, and satellite fire detections from various satellite systems. The BlueSky framework currently does not have a mechanism to transport smoke into the model domain from external sources. G18 Imagery Overlay. If none are selected, it will select the first link. The Map does not show other types of air pollution, like ozone, that also may affect your air quality. The FireWork forecast maps indicate anticipated air quality conditions and not the current air quality. Due to the same reasoning described in FAQ-2 above, a fire detection can be produced for fires occupying small fractional areas of the pixel. We have implemented changes to fix the network issues and are monitoring the forecasts to ensure this does not recur. For additional information please consult the FAQ. Click on an icon to see the NowCast AQI level at that location, and to see actions to consider taking. Because smoke may be carried thousands of kilometres downwind, distant locations can be affected almost as severely as areas close to the fire. Want to know more about the Map and wildfire smoke and your health? After 10am, the analysis is fine-tuned as time permits as additional satellite data becomes available.

Welcome to the Canadian portal for information about wildland fire weather and smoke. From here you can access the BlueSky Canada smoke forecasts, fire weather forecasts, fire information, and the BlueSky Playground. The Weather Forecast Research Team at the University of British Columbia produces these research forecasts with support from multiple agencies.

We have implemented changes to fix the network issues and are monitoring the forecasts to ensure this does not recur. Need more tips for getting started? Click the Layer control and click one of the Forecasts to switch between hourly, daily average and daily maximum smoke forecasts. G18 Imagery Overlay. CONUS imaging sector and 10min observations over the entire western hemisphere full-disk imaging sector with two satellites positioned at Data Sources. Local conditions are not available Either allow geolocation from your device or search for current conditions. Create emissions scenarios for prescribed burns and wildfires, then model and view the resulting smoke dispersion forecast. WFS Data Formats:. Fire Information. AirNow PM 2. You also can share the unique URL with others. Analysts do their best to distinguish between fires and other heat sources or highly reflective surfaces, such as factories, mines, gas flares, solar panels, clouds, etc. How to Use the Map The icons on the map are clickable.