452 Precipitation
Rainshadow
Rainshadow in westerly flow
Annual Precipitation
SW Olympic Slopes-Hoh Rain Forest: 150-170 inches yr-1
Sequim: roughly 15 inches per year.
Puget Sound Convergence Zone
Progress in Precipitation Prediction in Terrain
NGM, 80 km, 1995
NGM, 1995
2001: Eta Model, 22 km
36-km 12-km
NWS WRF-NMM (12-km)
2007-2008 12-km UW MM5 Real-time 12-km WRF-ARW and WRF-NMM are similar December 3, 2007 0000 UTC Initial 12-h forecast 3-hr precip.
2007-2008 4-km MM5 Real-time
Smaller Scale Terrain Modulates Precipitation 10-km
12-km 4-km
Small-Scale Spatial Gradients in Climatological Precipitation on the Olympic Peninsula Alison M. Anders, Gerard H. Roe, Dale R. Durran, and Justin R. Minder Journal of Hydrometeorology Volume 8, Issue 5 (October 2007) pp. 1068–1081
Annual Climatologies of MM5 4-km domain
Verification of Small-Scale Orographic Effects
Flow over terrain can be highly 3D and complex
Convective Precipitation Need at least 2-4 km resolution to get most convection even half right. If grid spacing is more coarse must have cumulus parameterization--Kain-Fritsch is used for MM5/WRF. Convection is least skillful precipitation in virtually all models. High resolution models can potentially give a heads on type of precipitation a day ahead (squall line, supercell, etc.)
Real-time WRF 4 km BAMEX Forecast Valid 6/10/03 12Z 4 km BAMEX forecast 36 h Reflectivity 4 km BAMEX forecast 12 h Reflectivity Composite NEXRAD Radar
Composite NEXRAD Radar Real-time 12 h WRF Reflectivity Forecast Valid 6/10/03 12Z 4 km BAMEX forecast 10 km BAMEX forecast 22 km CONUS forecast Composite NEXRAD Radar
Hurricane Isabel Reflectivity at Landfall 18 Sep 2003 1700 Z Radar Composite 41 h forecast from 4 km WRF
Most West Coast heavy precip events are associated with “atmospheric rivers”, a.k.a. the “Pineapple Express” A relatively narrow current of warm, moist air from the subtropics…often starting near or just north of Hawaii.
Associated with extraordinarily narrow filaments of moisture Precipitable Water From Mike Warner
A Recent Devastating Pineapple Express: November 6-7, 2006
November 6-9, 2006 Dark Green: about 20 inches
We know quite a bit about atmospheric rivers and heavy NW precipitation events, although there are still gaps in our knowledge
Synoptic Set-Up for Top Fifty Events at Forks Courtesy of Michael Warner
Precipitable Water
500 mb height
SLP
850 mb Temp
Extreme Precipitation Events The current of warm, moist air associated with atmospheric rivers are found in the warm sector, parallel, near, and in front of the cold front. Thus, atmospheric rivers are closely associated with the jet core and the region of large baroclinicity.
Orographic Enhancement Upslope flow greatly increases precipitation rates on terrain. Thus, wind speed and angle of attach can greatly modify the extreme nature of the precipitation.
Human Versus Objective Skill for Precipitation Forecasts: NWS Offices Around the US
Prob. Of Precip.– Cool Season (0000/1200 UTC Cycles Combined)
Brier Scores for Precipitation for all stations for the entire study period.
Brier Score for all stations, 1 August 2003 – 1 August 2004 Brier Score for all stations, 1 August 2003 – 1 August 2004. 3-day smoothing is performed on the data.
Precipitation Brier Score for all stations, 1 August 2003 – 1 August 2004, sorted by geographic region.
Reliability diagrams for period 1 (a), period 2 (b), period 3 (c) and period 4 (d).
Rain Psychology More than a day out….Human Forecasters Tend to Overpredict 10-30% --exaggerating the threat of rain when it is not likely. “Its probably not going to rain…but I will throw in 10-30% anyway to cover myself” And underpredict rain when it is fairly definite. “Well it looks like it will rain…but I am unsure…so I will knock down the probabilities to 60-80% to cover myself”
Humans Help with Heavier Precipitation
The End
Bias scores for the (a) 1.33- and (b) 4-km model simulations for 1400 UTC 13 Dec 2001 through 0800 UTC 14 Dec 2001.