Forest gap effects on snow storage in the transitional climate of the Eastern Cascade Range, Washington, United States

IF 2.6 Q2 WATER RESOURCES
S. Dickerson‐Lange, Emily R. Howe, Kenna Patrick, R. Gersonde, J. Lundquist
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Abstract

Forest thinning and gap creation are being implemented across the western United States of America (USA) to reduce wildfire and forest mortality risk as the climate warms. The Eastern Cascades in Washington, USA, is in a transitional zone between maritime and continental climate conditions and represents a data gap in observations describing the relationship between forest density and snowpack. We collected 3 years of snow observations across a range of forest densities to characterize how forest management efforts in this region may influence the magnitude and duration of snow storage. Observations indicate that peak snow storage magnitude in small gaps ranges from the same to over twice that observed in unburned forest plots in the Eastern Cascades. However, differences in snow duration are generally small. Across all Eastern Cascade sites and years, we observed a median difference of snow storage lasting 7 days longer in gaps as compared to nearby forest plots. A notable exception to this pattern occurred at one north-facing site, where snow lasted 30 days longer in the gap. These observations of similar snow storage duration in the Eastern Cascades are attributed to minimal differences in canopy snow interception processes between forests and gaps at some sites, and to higher ablation rates that counterbalance the higher snow accumulation in the gaps at other sites. At the north-facing site, more snow accumulated in the gap, and ablation rates in the open gap were similar to the shaded forest due to the aspect of the site. Thus, snow storage duration was much longer in the gap. Together, these data suggest that prescriptions to reduce forest density through thinning and creating gaps may increase the overall amount of snow storage by reducing loss due to sublimation and melting of canopy-intercepted snow. However, reducing forest density in the Eastern Cascades is unlikely to buffer climate-induced shortening of snow storage duration, with the possible exception of gap creation in north-facing forests. Lastly, these observations fill a spatial and climatic data gap and can be used to support hydrological modeling at spatial and temporal scales that are relevant to forest management decisions.
美国华盛顿州东喀斯喀特山脉过渡气候中森林间隙对积雪的影响
随着气候变暖,美利坚合众国西部正在实施森林疏伐和森林缺口创建,以降低野火和森林死亡风险。美国华盛顿的东喀斯喀特山脉位于海洋和大陆气候条件之间的过渡地带,在描述森林密度和积雪之间关系的观测中存在数据差距。我们收集了3年来对一系列森林密度的积雪观测,以描述该地区的森林管理工作如何影响积雪的大小和持续时间。观测结果表明,小间隙中的峰值积雪量从与东喀斯喀特山脉未燃烧林地中观测到的峰值积雪大小相同到两倍以上。然而,雪持续时间的差异通常很小。在东喀斯喀特山脉的所有地点和年份,我们观察到,与附近的林地相比,间隙中持续7天的雪量存在中值差异。这种模式的一个显著例外发生在一个朝北的地点,那里的雪在缺口中持续了30天以上。在东喀斯喀特山脉观察到的类似的积雪持续时间归因于一些地点森林和缺口之间的冠层积雪拦截过程差异最小,以及抵消其他地点缺口中较高积雪的较高消融率。在朝北的场地,更多的雪堆积在缺口中,由于场地的形状,开阔缺口的消融率与荫蔽森林相似。因此,雪在间隙中的储存时间要长得多。总之,这些数据表明,通过疏伐和形成缺口来降低森林密度的处方可能会通过减少树冠截留雪升华和融化造成的损失来增加总的积雪量。然而,降低东喀斯喀特山脉的森林密度不太可能缓冲气候导致的积雪储存时间缩短,朝北森林可能会出现缺口。最后,这些观测填补了空间和气候数据的空白,可用于支持与森林管理决策相关的空间和时间尺度的水文建模。
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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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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