Wintertime Extreme Precipitation Events along the Pacific Northwest Coast: Climatology and Synoptic Evolution

Extreme precipitation events impact the Pacific Northwest during winter months, causing flooding, landslides, extensive property damage, and loss of life. Outstanding questions about such events include whether there are a range of associated synoptic evolutions, whether such evolutions vary along t...

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Bibliographic Details
Published in:Monthly weather review 2012-07, Vol.140 (7), p.2021-2043
Main Authors: WARNER, Michael D, MASS, Clifford F, SALATHE, Eric P
Format: Article
Language:English
Subjects:
Anomalies
Climate
Climatic data
Climatology
Coastal flooding
Coastal zone
Coasts
Cold flow
Convection
Daily precipitation
Data centers
Earth, ocean, space
Evolution
Exact sciences and technology
External geophysics
Extreme weather
Flood damage
Flooding
Floods
Heavy precipitation
High pressure
Landslides
Meteorology
Mountains
Offshore
Precipitable water
Precipitation
Pressure anomalies
Property damage
Questions
Rainfall
Rainfall duration
Ridging
Rivers
Sea level
Sea level anomalies
Sea level pressure
Stream flow
Swaths
Temperature anomalies
Vertical velocities
Water vapor
Water vapour
Watersheds
Winter
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Summary:Extreme precipitation events impact the Pacific Northwest during winter months, causing flooding, landslides, extensive property damage, and loss of life. Outstanding questions about such events include whether there are a range of associated synoptic evolutions, whether such evolutions vary along the coast, and the associated rainfall duration and variability. To answer these questions, this study uses 60 years of National Climatic Data Center (NCDC) daily precipitation observations to identify the top 50 events in two-day precipitation at six coastal stations from northern California to northwest Washington. NCEP–NCAR reanalysis data were used to construct synoptic composite evolutions of these events for each coastal location. Most regional flooding events are associated with precipitation periods of 24 h or less, and two-day precipitation totals identify nearly all major events. Precipitation areas of major events are generally narrow, roughly 200 km in width, and most are associated with atmospheric rivers. Composite evolutions indicate negative anomalies in sea level pressure and upper-level height in the central Pacific, high pressure anomalies over the southwest United States, large positive 850-hPa temperature anomalies along the coast and offshore, and enhanced precipitable water and integrated water vapor fluxes over southwest to northeast swaths. A small subset of extreme precipitation events over the southern portion of the domain is associated with a very different synoptic evolution: a sharp trough in northwesterly flow and post-cold-frontal convection. High precipitable water values are more frequent during the summer, but are not associated with heavy precipitation due to upper-level ridging over the eastern Pacific and weak onshore flow that limit upward vertical velocities.
ISSN:0027-0644
1520-0493
DOI:10.1175/mwr-d-11-00197.1