Canada's Northwest Territories Ablaze | NASA Earth Observatory
Boreal forests in this northerly Canadian territory have evolved to burn, but the increasing frequency of fires is putting ecosystems to the test. The land area of the Northwest Territories is roughly equal to that of France, Portugal and Spain combined, although its overall area is even larger because of its large lakes. The forests of the Northwest Territories are dominated by black spruce, a type of evergreen that is not just tolerant of fire but dependent on it. Black spruce has waxy, resinous needles adapted to ignite during lightning storms and burn vigorously. The forests thrive if they burn every century or so because fires open the canopy up to light, stimulate new growth, and help maintain biodiversity. Fires also melt away the waxy coating on cones of black spruces allowing them to deposit seeds uniquely designed to thrive in charred, acidic soils. However, Canada’s black spruce boreal forests have been burning more often in recent decades, putting even these fire-loving forests under strain.
When the Visible Infrared Imaging Radiometer Suite (VIIRS) on the NOAA-20 satellite captured images of smoke streaming throughout the region on August 11, 2024, the sensor detected nearly 100 active fires burning in the Northwest Territories, according to data posted by the territory’s government. The Canadian government, including the Northwest Territories, uses hotspot data from the Fire Information for Resource Management System (FIRMS), a fire monitoring system developed by NASA, to help detect and track wildfires.
Most fires in the Northwest Territories burn far from towns or infrastructure, so authorities let many of them burn themselves out, a process that can take weeks or even months depending on the weather. Of the 96 fires active on August 11, Canadian authorities reported that 88 of them burned unhindered by firefighting efforts. Firefighters had controlled five fires and were in the process of suppressing one, according to the territory’s government. None of the fires were close enough to settlements to trigger evacuation orders. However, dense smoke has triggered air quality warnings for fifteen Northwest Territories communities, including settlements in the North Slave, South Slave, Dehcho, and Sahtu regions.
The fires coincided with a drought classified as moderate to extreme by the North American Drought Monitor and a week of extreme warmth that broke temperature records in several places in the Northwest Territories, including the towns of Aklavik, Inuvik, Fort McPherson, and Tuktoyaktuk. All four communities surpassed 30 degrees Celsius (86 degrees Fahrenheit); Fort McPherson’s temperature soared to a remarkable 34.9°C (94.8°F) on August 7 and 8.
Though Canada’s black spruce forests are accustomed to fire, ecologists that study them are finding that there are examples of forests in the region struggling to recover after fires due to the increasing frequency and size of fires in the region. One study led by Jennifer Baltzer, an ecologist at Wilfrid Laurier University, found that black spruce’s ability to regenerate declined at 38 percent of the 1,500 recently burned forest sites included in the study and failed to regenerate entirely at 18 percent of the sites—unusually high percentages compared to the historic norm. The analysis was based on tree regeneration data compiled and analyzed as part of NASA’s Arctic-Boreal Vulnerability Experiment (ABoVE).
Many of the areas burning in this image also burned in 2023, during Canada’s worst wildfire season on record. However, the total number of fires and the number of hectares burned in the Northwest Territories through mid-August 2024 are below the 10-year average so far, according to data released by Canadian authorities. The extent of burning in neighboring British Columbia and Alberta through mid-August 2024, however, was above average.
Northwest Territories Wildfire Updates:
https://www.gov.nt.ca/ecc/services/wildfire-update/en/firedata
Image Credits: NASA Earth Observatory images by Lauren Dauphin, using VIIRS data from NASA EOSDIS LANCE, GIBS/Worldview, and the Joint Polar Satellite System (JPSS) and data from DSCOVR EPIC
Article Credit: Adam Voiland
Image Dates: Aug. 10-11, 2024
Release Date: Aug. 14, 2024
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