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引用次数: 0
摘要
在全球范围内,森林火灾的日益频繁是对生态系统的主要威胁。喜马拉雅山脉丰富的森林在夏季季风前的 3 月至 6 月也是森林火灾的高发期。在确定影响森林火灾时空分布的气象因素方面,研究十分有限。利用三组基于卫星的 3 月至 6 月月度烧毁面积(BA)数据,我们发现东喜马拉雅山(EH)的烧毁面积高于中喜马拉雅山(CH)和西喜马拉雅山(WH)。通过统计方法,我们发现水汽压差(VPD)是控制喜马拉雅山 BA 的最主要变量。降水、土壤水分和温度及其相对变化控制着 VPD,而 VPD 则控制着 BA 的年际和季节内变化。我们的研究结果表明,对 VPD 的良好预测将有助于喜马拉雅山森林火灾警报的生成。
Vapor Pressure Deficit Controls the Extent of Burned Area Over the Himalayas
Globally, increasing occurrences of forest fires are major threats to the ecosystem. The rich forests in the Himalayas also suffer from high incidents of forest fires in the pre-monsoon summer months, March to June. Research studies are limited in identifying the meteorological factors governing the spatiotemporal distribution of forest fires. Using three satellite-based data sets of monthly burned area (BA) for March to June, we found higher BA in the Eastern Himalayas (EH) compared to the Central (CH) and Western Himalayas (WH). Using statistical methods, we found Vapor Pressure Deficit (VPD) to be the most dominating variable controlling BA in the Himalayas. Precipitation, soil moisture and temperature, with their relative variability, control VPD that governs the interannual and intraseasonal variations of BA. Our results imply that a good forecast of VPD will facilitate alert generation for the Himalayan forest fires.
期刊介绍:
JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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