Snowpack Contributions and Temperature Characterization of Landfalling Atmospheric Rivers in the Western Cordillera of the United States

doi:10.1029/2019GL083564

GSTDTAP > 气候变化

DOI	10.1029/2019GL083564
	Snowpack Contributions and Temperature Characterization of Landfalling Atmospheric Rivers in the Western Cordillera of the United States
	Hu, J. Michelle 1,2; Nolin, Anne W.2,3
	2019-06-28
发表期刊	GEOPHYSICAL RESEARCH LETTERS
ISSN	0094-8276
EISSN	1944-8007
出版年	2019
卷号	46 期号:12 页码:6663-6672
文章类型	Article
语种	英语
国家	USA
英文摘要	Atmospheric rivers (ARs) are regions of high water vapor transport in the lower atmosphere. When these air masses encounter mountain ranges, they can produce significantly enhanced orographic precipitation. AR events may substantially influence seasonal mountain snow, an important ecologic and economic resource for Washington, Oregon, and California. To better understand how ARs affect the montane snowpack of these U.S. West Coast states, we used 33 years of Snow Telemetry and Topography Weather data to examine AR and non-AR storm day temperatures and impacts on snow water equivalent (SWE). We found mean daily minimum temperatures of AR storm days to be 1 to 4 degrees C warmer and mean daily increases in SWE to be 23% to 57% higher than non-AR storm days. AR storm days have contributed an average of 23% of effective snowfall to seasonal SWE in the California Sierra Nevada and 34% of effective snowfall to seasonal SWE in the Washington and Oregon Cascades. Plain Language Summary Atmospheric rivers (ARs), or "rivers in the sky," are areas where large amounts of water vapor are quickly transported through the lower atmosphere. When these air masses are pushed up by mountain ranges, precipitation can increase dramatically. AR-related precipitation can substantially affect seasonal mountain snow, which has strong economic and ecological roles in Washington, Oregon, and California. To better understand how ARs affect mountain snow in these states, we used 33 years of ground-based weather and snow data to examine average temperatures and snow accumulation and melt on AR and non-AR storm days. Compared to non-AR storm days, daily minimum temperatures of AR storm days were 1 to 4 degrees C warmer and daily increases in snow accumulation were 23% to 57% higher. These very warm and very wet storm days play a smaller role in California than previously thought. On average, AR days are responsible for 23% of seasonal snowfall in the California Sierra Nevada and 34% of seasonal snowfall in the Washington and Oregon Cascades.
英文关键词	atmospheric river mountain snowpack extreme events precipitation hydroclimatology U S west coast
领域	气候变化
收录类别	SCI-E
WOS记录号	WOS:000477616300056
WOS关键词	SNOWMELT RUNOFF ; PRECIPITATION ; CLIMATE ; VARIABILITY ; TRENDS ; COVER ; WATER ; RAIN ; CONSEQUENCES ; ACCUMULATION
WOS类目	Geosciences, Multidisciplinary
WOS研究方向	Geology
引用统计
文献类型	期刊论文
条目标识符	http://119.78.100.173/C666/handle/2XK7JSWQ/184255
专题	气候变化
作者单位	1.Oregon State Univ, Water Resources Program, Corvallis, OR 97331 USA; 2.Univ Washington, Dept Civil & Environm Engn, Seattle, WA 98195 USA; 3.Univ Nevada, Dept Geog, Reno, NV 89557 USA
推荐引用方式 GB/T 7714	Hu, J. Michelle,Nolin, Anne W.. Snowpack Contributions and Temperature Characterization of Landfalling Atmospheric Rivers in the Western Cordillera of the United States[J]. GEOPHYSICAL RESEARCH LETTERS,2019,46(12):6663-6672.
APA	Hu, J. Michelle,&Nolin, Anne W..(2019).Snowpack Contributions and Temperature Characterization of Landfalling Atmospheric Rivers in the Western Cordillera of the United States.GEOPHYSICAL RESEARCH LETTERS,46(12),6663-6672.
MLA	Hu, J. Michelle,et al."Snowpack Contributions and Temperature Characterization of Landfalling Atmospheric Rivers in the Western Cordillera of the United States".GEOPHYSICAL RESEARCH LETTERS 46.12(2019):6663-6672.