Precipitation Associated with 500 hPa Closed Cyclones

1. Precipitation Associated with 500 hPa Closed Cyclones Anantha Aiyyer Eyad Atallah Department of Earth and Atmospheric Sciences, University at Albany

2. Motivation • What percentage of precipitation in the Northeast is associated with closed lows? • What are the regional and seasonal precipitation signals? • Availability of gridded data sets.

3. Data and Methodology • NCEP/NCAR Reanalyses at 500 hPa. • Unified Precipitation Dataset – .250 lat-lon grid (http://www.cdc.noaa.gov/cdc/data.unified.html). • Period of interest 1950-1998. • Use an objective algorithm to identify closed lows. • Define a closed low as a 30 m height rise from a local min in the height field.

9. Mainly zonal distribution of closed lows. • Genesis area in the NW Atlantic. • Spring is the most active season. • Summer is the least active season. • Possible tropical cyclone contribution in the summer.

14. Annual mean precipitation field strongly modulated by topography. • Upslope and lake effect signatures dominate cool season precip. • Terrain elevation signatures dominate warm season precip. • Lows contribute a higher percentage of total precipitation in coastal areas, especially in Spring.

15. NE NW SW SE

20. Heaviest precip from lows in western quadrants. • Upslope signatures strongest in western quadrants. • Precip rates maximized with lows in SW quadrant. • NE quadrant shows prominent lake effect signature. • SE quadrant precip rates maximized along eastern most terrain features.

29. Probability of occurrence decreases rapidly with increasing precip rates. • 60% of lows produce mean precip rates of 5 mm or greater over the entire domain. • Local maximum precipitation has a relatively even distribution over wide range of rates. • Ideal low position for highest domain-wide precip is west of the NE. • Ideal low position for highest local max precip is southwest of the NE.