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National Weather Service Protecting Lives and Property Precipitation Potential Placement ER Flash Flood Workshop Jeff Myers/Jim Noel NOAA/NWS/OHRFC

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Presentation on theme: "National Weather Service Protecting Lives and Property Precipitation Potential Placement ER Flash Flood Workshop Jeff Myers/Jim Noel NOAA/NWS/OHRFC"— Presentation transcript:

1 National Weather Service Protecting Lives and Property Precipitation Potential Placement ER Flash Flood Workshop Jeff Myers/Jim Noel NOAA/NWS/OHRFC James.Noel@noaa.gov June 2-4, 2010

2 National Weather Service Protecting Lives and Property Precipitation Potential Placement History  NESDIS began using it to correct rainfall estimates in 1981 (Scofield)  OHRFC implemented it in 1996. Originally called precipitation efficiency.  NWA Digest Article Published in 2003.  Added to NWS AWIPS Supplemental parameters in 2008  Added to SPC meso-analysis page in 2008.  Ongoing research into combining moisture, instability and lift.

3 National Weather Service Protecting Lives and Property Precipitation Potential Placement Parameter 1.Lower Tropospheric Relative Humidity (1000- 700mb) 2.Precipitable Water (PW) 1.Lower Tropospheric Relative Humidity (1000- 700mb) 2.Precipitable Water (PW) RH (1000-700mb) x PW

4 National Weather Service Protecting Lives and Property Precipitation Potential Placement Original Research Percent occurrence of measurable rainfall for three different temperature environments

5 National Weather Service Protecting Lives and Property Precipitation Potential Placement Rules of Thumb for Onset of Rainfall  Onset for measurable rainfall is typically 0.3” to 0.6” during a cool environment (<37F)  Onset for measurable rainfall is typically 0.5” to 0.8” for a transitional temperature environment (37F – 69F)  Onset for measurable rainfall is typically 0.8” to 1.3” for a warm temperature environment (>=70F)

6 National Weather Service Protecting Lives and Property Precipitation Potential Placement Rules of Thumb for Axis of Heaviest Rainfall  Heaviest rainfall usually occurs along and to the left of the heaviest PPP axis in cold air advection scenarios.  Along and to the right of PPP axis in stationary and warm frontal set-ups. (Nashville example)

7 National Weather Service Protecting Lives and Property PE Mean RHPW PPP PPP improves over either PW or Mean RH Precipitation Potential Placement

8 National Weather Service Protecting Lives and Property PPP can be converted to a 6-hour POP to assist forecasters based on the research data Precipitation Potential Placement PWMean RH PPP to POP

9 National Weather Service Protecting Lives and Property PPP helps to focus on placing the QPF better versus other broad spectrum parameters Precipitation Potential Placement PWMean RH PPP to POP

10 National Weather Service Protecting Lives and Property PE PW PPP Eta QPF Precipitation Potential Placement PPP helps to focus on placing the QPF better than model QPF in many cases

11 National Weather Service Protecting Lives and Property 24-hr cumulative GFS PPP24-hr MPE Totals 24-hr cumulative PPP compared better with observed rainfall versus 24-hr GFS QPF from Sep 20-21, 2009 flood event in GA No ensemble QPF members handled this event Precipitation Potential Placement

12 National Weather Service Protecting Lives and Property 24-hr cumulative GFS PPP24-hr cumulative GFS QPF 24-hr cumulative PPP compared better with observed rainfall versus 24-hr GFS QPF from Oct. 5, 2006 flood event in Ohio Precipitation Potential Placement

13 National Weather Service Protecting Lives and Property 24-hr cumulative GFS PPP24-hr observed rainfall 24-hr cumulative PPP compared better with observed rainfall versus 24-hr GFS QPF from Oct. 5, 2006 flood event in Ohio Precipitation Potential Placement

14 National Weather Service Protecting Lives and Property Historic Nashville Flooding Event 72 Hour PPP Forecast vs. Actual Rainfall Precipitation Potential Placement

15 National Weather Service Protecting Lives and Property Historic Nashville Flooding Event 72 Hour GFS QPF vs. Actual Rainfall Precipitation Potential Placement

16 National Weather Service Protecting Lives and Property Historic Nashville Flooding Event 72 Hour Moisture Transport vs. Actual Rainfall Precipitation Potential Placement

17 National Weather Service Protecting Lives and Property NGM MOS Official NDFD Grid GFS MOS PE to POPs 16 Z22 Z Precipitation Potential Placement PPP can help with placement of rainfall

18 National Weather Service Protecting Lives and Property Precipitation Potential Placement PPP is designed to improve placement of rainfall but there is also a relationship to rainfall amounts

19 National Weather Service Protecting Lives and Property SPC added PPP to their real-time meso-analysis page in 2008 http://w1.spc.woc.noaa.gov/exper/mesoanalysis/ Precipitation Potential Placement

20 National Weather Service Protecting Lives and Property PPP Summary  PPP is not a silver bullet, however:  It is a good tool to assist forecasters in better placing QPF  It helps forecasters visualize rainfall placement and orientation with synoptic, MCS and tropical events  It should be used with other diagnostic and heavy rain forecasting tools  It is not designed to replace our movement into the ensemble and probabilistic world which is and will happen  It can assist modelers in identifying weaknesses in current QPF techniques  It does a good job in heavy rain events and convective events, but not isolated events  It does a decent job in MCS events

21 National Weather Service Protecting Lives and Property  Current research is focusing on combining of the big three: moisture, instability and lift (maximizing PPP)  Current research shows moisture and lift dominate of the three  By combining the three, placement improves further  Preliminary results of 44 events  GFS PPP POD 0.61 and FAR 0.55 for heavy rain occurring in the max bulleyes  GFS PPP POD 0.98 FAR 0.14 for maximum rain axis occurring in the maximum bulleyes or along the gradient around bulls-eye  MM5 PPP POD 0.62 and FAR 0.45 for heavy rain occurring in the max bulleyes  MM5 PPP POD 0.97 FAR 0.25 for maximum rain axis occurring in the maximum bulleyes or along the gradient around bulls- eye Precipitation Potential Placement Research

22 National Weather Service Protecting Lives and Property Example of maximizing PPP using low level convergence and PPP for MCS moving from MSP to DTW Precipitation Potential Placement Research

23 National Weather Service Protecting Lives and Property More information: Look for NWA Digest Publication Volume 26 Numbers 3,4 Questions or Suggestions: Jeffrey.Myers@noaa.gov or James.Noel@noaa.gov More information: Look for NWA Digest Publication Volume 26 Numbers 3,4 Questions or Suggestions: Jeffrey.Myers@noaa.gov or James.Noel@noaa.gov Precipitation Potential Placement

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