Modelling postfire recovery of snow albedo and forest structure to understand drivers of decades of reduced snow water storage and advanced snowmelt timing

IF 3.2 3区 地球科学 Q1 Environmental Science
A. Surunis, K. E. Gleason
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引用次数: 0

Abstract

Forest fires darken snow albedo and degrade forest structure, ultimately reducing peak snow–water storage, and advancing snowmelt timing for up to 15 years following fire. To date, no volumetric estimates of watershed-scale postfire effects on snow–water storage and snowmelt timing have been quantified over decades of postfire recovery. Using postfire parameterizations in a spatially-distributed snow mass and energy balance model, SnowModel, we estimated postfire recovery of forest fire effects on snow–water equivalent (SWE) and snowmelt timing over decades following fire. Using this model, we quantified volumetric recovery of forest fire effects on snow hydrology across a chronosequence of eight sub-alpine forests burned between 2000 and 2019 in the Triple Divide of western Wyoming. We found that immediately following fire, forest fire effects reduced snow–water storage by 6.8% (SD = 11.2%) and advanced the snow disappearance date by 31 days (SD = 9 days). Across the 15-year recovery following fire, forest fire effects reduced snow–water storage by 4.5% (SD = 11.4%). Postfire effects on snow hydrology generally recovered over time, but still persisted beyond 15-years following fire due to the observed postfire shift from forest to open meadow. Estimates of postfire reductions on peak SWE summed over the entire 15-year postfire recovery period were 18 times greater than the immediate losses in the first winter following fire alone. These lasting effects of forest fires on snow hydrology decades following fire highlight the importance of postfire parameterizations for more accurate watershed-scale volumetric estimates of forest fire effects on snow–water resources.

Abstract Image

模拟火灾后积雪反照率和森林结构的恢复情况,以了解造成数十年积雪蓄水量减少和融雪时间提前的原因
森林火灾会使积雪反照率变暗,森林结构退化,最终降低积雪的峰值蓄水量,并在火灾后长达 15 年的时间里提前融雪时间。迄今为止,还没有对几十年的火灾后恢复过程中流域尺度的火灾后对雪水储存和融雪时间的影响进行量化估算。利用空间分布式雪质量和能量平衡模型 SnowModel 中的火后参数,我们估算了火灾后几十年内森林火灾对雪水当量(SWE)和融雪时间的影响。利用该模型,我们对 2000 年至 2019 年期间怀俄明州西部三重分水岭地区烧毁的八座亚高山森林的时序序列中森林火灾对雪水文影响的体积恢复情况进行了量化。我们发现,火灾发生后,森林火灾的影响立即使积雪蓄水量减少了 6.8%(SD = 11.2%),并使积雪消失日期提前了 31 天(SD = 9 天)。在火灾后的 15 年恢复期内,森林火灾效应使积雪蓄水量减少了 4.5%(SD = 11.4%)。随着时间的推移,火灾对积雪水文的影响一般会逐渐恢复,但由于观察到火灾后积雪从森林转移到了开阔草地,因此火灾后 15 年内对积雪水文的影响仍然持续存在。在整个 15 年的火后恢复期中,火后峰值降雪量的估计值是火后第一个冬季直接损失的 18 倍。森林火灾对雪水文的这些持久影响在火灾发生后的几十年里一直存在,这凸显了火后参数化对更准确地估算森林火灾对雪水资源的影响的流域尺度体积的重要性。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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