Examining Wildfire Spread Variables for Assessing Forest Burn Vulnerability

Q3 Social Sciences GI_Forum Pub Date : 2021-01-01 DOI:10.1553/giscience2021_02_s94
Victoria Chmarycz, K. Forsythe
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Abstract

The scale and danger of wildfires are a growing concern in Western Canada. The Northwest Fire Centre is one of six designated wildfire management districts in the Canadian Province of British Columbia. It covers 25 million hectares, or a quarter of the area of the province. The centre sees the greatest area burned from wildfire spread in the province, although it experiences the lowest number of active wildfires annually. This study examined two Sentinel2 images capturing the ‘before’ and ‘after’ of a major wildfire that took place in the Lutz Creek area within the Northwest Fire Centre in 2018. Higher-risk wildfire spread areas were identified by combining Normalized Difference Vegetation Index, Normalized Difference Water Index and slope gradient variables. When slope was included, the Moderately High and High burn vulnerability categories increased to ~54% of the area analysed, compared to ~33% when it was not included. Together, all three variables provide the basis for a more accurate assessment of forest burn spread and vulnerability.
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研究野火蔓延变量评估森林燃烧脆弱性
在加拿大西部,野火的规模和危险日益受到关注。西北消防中心是加拿大不列颠哥伦比亚省六个指定的野火管理区之一。它占地2500万公顷,占该省面积的四分之一。该中心认为,该省野火蔓延的面积最大,尽管它每年经历的活跃野火数量最少。这项研究检查了2018年在西北消防中心的卢茨克里克地区发生的一场重大野火的“之前”和“之后”的两张哨兵2号图像。结合归一化植被指数、归一化水指数和坡度变量,确定了野火蔓延的高风险区域。当包括坡度时,中高和高烧伤脆弱性类别增加到分析面积的~54%,而不包括坡度时为~33%。所有这三个变量共同为更准确地评估森林燃烧蔓延和脆弱性提供了基础。
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来源期刊
GI_Forum
GI_Forum Earth and Planetary Sciences-Computers in Earth Sciences
CiteScore
1.10
自引率
0.00%
发文量
9
审稿时长
23 weeks
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