Agricultural Burning Detection Using Remote Sensing: A Case Study in Zhejiang Province, China

Zili Zhang, H. Yu, Zunying Hu, Bin Zhou, Mingchun Han
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引用次数: 1

Abstract

Random agricultural burning such as crop straw fire, especial during the harvest seasons of summer and autumn, is a very common phenomenon in rural or suburban cities in China. However, several pollutions may caused by this kind of biomass burning including climate-destructive aerosols and carbon fluxes which decrease seriously regional air quality and may have an negative impact on public human health leading to respiratory illness. Using remote sensing is an available method to detect and monitor agricultural burning arbitrarily with its better time and spatial effectiveness. As a part of EOS mission, MODIS was suitable for fire detection as some high-temperature-sensitive bands of the sensor had been improved. A hybrid algorithm presented by the paper had archived two major advancements on adjusting the potential thresholds to suit lower temperature of crop straw burning than forest fires and introducing latest land cover data to exclude fake agriculture burning fire points which not located in croplands. The results had been validated by FIRMS's active fire production suggesting that the modified algorithm works well for agriculture burning under complex land characteristic of eastern China, especially in Zhejiang province. A very large potential for satellite data as an efficient method to detect agriculture burning was also demonstrated in the study.
基于遥感技术的农业燃烧探测——以浙江省为例
农作物秸秆随意焚烧是中国农村和郊区城市普遍存在的现象,特别是在夏秋两季收获季节。然而,这种生物质燃烧可能造成几种污染,包括破坏气候的气溶胶和碳通量,严重降低区域空气质量,并可能对公众健康产生负面影响,导致呼吸系统疾病。利用遥感技术对农业焚烧进行任意检测和监测是一种可行的方法,具有较好的时间和空间有效性。作为EOS任务的一部分,MODIS对传感器的一些高温敏感波段进行了改进,适合于火灾探测。本文提出的混合算法在调整潜在阈值以适应比森林火灾更低的农作物秸秆燃烧温度和引入最新的土地覆盖数据以排除非农田的假农业燃烧火点方面取得了两大进展。结果表明,改进后的算法对中国东部特别是浙江省复杂土地特征下的农业燃烧具有良好的效果。该研究还证明了卫星数据作为探测农业燃烧的有效方法的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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