Tracy M. Backes scite author profile

Tracy M. Backes

2Publications

16Citation Statements Received

31Citation Statements Given

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University of Nevada Reno, Desert Research Institute, North Carolina State University

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A Climatology of the Vertical Structure of Water Vapor Transport to the Sierra Nevada in Cool Season Atmospheric River Precipitation Events

Backes

Kaplan

Schumer

et al. 2015

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This study presents the climatology of the vertical structure of water vapor flux above the Sierra Nevada during significant cool season (November-April) precipitation events. Atmospheric river (AR) and non-AR events are analyzed to better understand the effect of this structure on precipitation patterns. Daily measurements of cool season precipitation at seven weather stations around the Tahoe basin from 1974 to 2012 and NCEP/CPC gridded daily precipitation analysis along the Sierra crest for the period 1948-2012 are examined. NCEP-NCAR reanalysis and soundings from Oakland are used to look at upper atmospheric conditions, including the presence of vapor transport by low-and midlevel jets on storm days as well as upstream static stability in relation to significant precipitation events. Key findings are as follows: 1) ARs play a disproportionately large role in generating Tahoe basin precipitation during the cool season; 2) strong midlevel vapor transport needs to occur in tandem with low-level transport to achieve the most extreme 2-day precipitation in the Tahoe basin; 3) when low-to midlevel vapor transport is present on days with a defined AR, the local maximum in 2-day precipitation intensity decreases with distance from the Sierra crest, and on non-AR days, the relative increase in 2-day precipitation intensity due to low-and midlevel vapor transport does not vary based on distance from the Sierra crest; 4) AR and non-AR moisture fluxes are significantly modified by upstream static stability; and 5) understanding the impacts of ARs and their lower-and midlevel moisture flux structure are crucial components of the hydrometeorology in this region.

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Convergent extension by intercalation without mediolaterally fixed cell motion

Backes

Latterman

Small

et al. 2009

Journal of Theoretical Biology

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Tracy M. Backes

A Climatology of the Vertical Structure of Water Vapor Transport to the Sierra Nevada in Cool Season Atmospheric River Precipitation Events

Convergent extension by intercalation without mediolaterally fixed cell motion

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