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Mike Freilich, Seawinds project scientist, was heard to say at my retirement party: Bob keeps us abreast of PBL applications, and what the ‘real’ PBL.

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Presentation on theme: "Mike Freilich, Seawinds project scientist, was heard to say at my retirement party: Bob keeps us abreast of PBL applications, and what the ‘real’ PBL."— Presentation transcript:

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2 Mike Freilich, Seawinds project scientist, was heard to say at my retirement party: Bob keeps us abreast of PBL applications, and what the ‘real’ PBL looks like, and its latest revelations. At times he gets impatient, as when he began one lecture with “Come on guys. Listen. Sometimes I feel like I’m casting pearls before swine.”

3 STOP Using the Ekman solution for Planetary Boundary Layer applications Using the Ekman solution for Planetary Boundary Layer applications Using K-theory in modeling PBL fluxes Using K-theory in modeling PBL fluxes

4 OK. The nonlinear PBL solution requires a book (Brown, 1973) instead of a short paper (Ekman, 1905) The nonlinear PBL solution requires a book (Brown, 1973) instead of a short paper (Ekman, 1905) The nonlinear solution requires a quarter course instead of an hour lecture The nonlinear solution requires a quarter course instead of an hour lecture The nonlinear solution requires a PBL measurement with at least an hour’s average or a 60-km flight path instead of a point measurement from a tower (point or short-time measurements often have significant errors) The nonlinear solution requires a PBL measurement with at least an hour’s average or a 60-km flight path instead of a point measurement from a tower (point or short-time measurements often have significant errors)

5 But: The nonlinear solution is complete (Foster, 1994, 2002). The nonlinear solution is complete (Foster, 1994, 2002). The nonlinear solution has observational verification (SAR and scatterometer data, Brown 2005 Comments on the synergism between the analytic PBL model and remote sensing data, Bound.-Layer Meteor., 116:187-199 ) The nonlinear solution has observational verification (SAR and scatterometer data, Brown 2005 Comments on the synergism between the analytic PBL model and remote sensing data, Bound.-Layer Meteor., 116:187-199 ) There is a version of the nonlinear solution ‘for dummies’ ( Brown, 2005, 2002, Scaling Effects in Remote Sensing Applications and the Case of Organized Large Eddies, Canadian Jn. Remote Sensing, 28, 340-345, 2002,) There is a version of the nonlinear solution ‘for dummies’ ( Brown, 2005, 2002, Scaling Effects in Remote Sensing Applications and the Case of Organized Large Eddies, Canadian Jn. Remote Sensing, 28, 340-345, 2002,)

6 Station B 2 - 5 km Hazards of taking measurements in the Rolls Station A 1-km RABrown 2004 U VMean Flow Hodograph Z/  1 2 3 The Mean Wind The OLE winds Hodograph from center zone of rolls Hodograph from convergent zone of rolls Station BStation A

7 Principle of The Red Queen Named after the chess piece in Alice in Wonderland, - she moves faster & faster, in more complicated ways, yet Nothing Significant Changes. Named after the chess piece in Alice in Wonderland, - she moves faster & faster, in more complicated ways, yet Nothing Significant Changes. Used in Evolution and Biology, mainly to describe the predator-prey relationship. Used in Evolution and Biology, mainly to describe the predator-prey relationship. I’m mentioning this because I note that the principle seems to apply to modelling the turbulent PBL? (fantastically complicated turbulence models yet no better weather & climate models) I’m mentioning this because I note that the principle seems to apply to modelling the turbulent PBL? (fantastically complicated turbulence models yet no better weather & climate models) {6-06: This left a wonderful hole for scatterometer winds to fill. Likewise for a lidar to fill some day.} {6-06: This left a wonderful hole for scatterometer winds to fill. Likewise for a lidar to fill some day.} R. A. Brown 2005 EMS (from EGU 2005), LIDAR 1/06

8 R. A. Brown 2005 AGU

9 The nonlinear solution applied to satellite surface winds yields accurate surface pressure fields. These data show: * Agreement between satellite and ECMWF pressure fields. This indicates that both the Scatterometer winds and the nonlinear PBL model (V G /U 10 ) are accurate within  2 m/s. * A 3-month, zonally averaged offset angle of 19° suggests the mean PBL state is near neutral (the angle predicted by the nonlinear PBL model). * Swath deviation angle observations can be used to infer thermal wind and stratification. * Higher winds are obtained from pressure gradients and used as surface truth (rather than from GCM or buoy winds). * V G (pressure gradients) rather than U 10 could be used to initialize GCMs R. A. Brown 2006 AMS

10 NCEP real time forecasts use PBL model Even the best NCEP analysis, used as the first guess in the real time forecasts, is improved with the QuikScat surface pressure analyses. Even the best NCEP analysis, used as the first guess in the real time forecasts, is improved with the QuikScat surface pressure analyses.

11 This is the actual slp output from the uwpbl model using the 0543 UTC QuikSCAT pass

12 This is the actual output of the uwpbl model slp using the 0648 UTC QuikSCAT pass

13 This is a cut and paste of the previous two slides.

14 This is a composite of two runs of the model using the 0549 QuikSCAT pass and the 0648 QuikSCAT pass.

15 This is the 0600 UTC Ocean Prediction Center hand drawn surface analysis superimposed over the GOES12 0615UTC Image.

16 This is the composite of three consecutive runs of the uwpbl model using the 0543, 0648 and 0834 QuikSCAT passes superimposed on the GOES 12 image from 0645 UTC

17 This is the Ocean Prediction Center hand drawn surface analysis 0526 0600 UTC with the surface vorticity field from the uwpbl model overlaid. The vorticity field is a composite of three passes (0543, 0648 and 0834 UTC); it shows the locations of the frontal zones well.

18 OPC Sfc Analysis and IR Satellite Image 10 Jan 2005 0600 UTCUWPBL 10 Jan 2005 0600 UTC ab cd QuikSCAT 10 Jan 2005 0709 UTC 991 982 996 999 984 This example is from 10 January 2005 0600UTC. Numerical guidance from the 0600UTC GFS model run (a) indicated a 999 hPa low at 43N, 162E. QuikScat winds (b) suggested strong lows --- OPC analysis uses 996. UW-PBL analysis indicates 982. GFS Sfc Analysis 10 Jan 2005 0600 UTC Improved 6/06

19 Programs and Fields available on http://pbl.atmos.washington.edu Questions to rabrown, Ralph or jerome @atmos.washington.edu Direct PBL model: PBL_LIB. (’75 -’05) An analytic solution for the PBL flow with rolls, U(z) = f(  P,  T o,  T a, ) Direct PBL model: PBL_LIB. (’75 -’05) An analytic solution for the PBL flow with rolls, U(z) = f(  P,  T o,  T a, ) The Inverse PBL model: Takes U 10 field and calculates surface pressure field  P (U 10,  T o,  T a, ) (1986 - 2005) The Inverse PBL model: Takes U 10 field and calculates surface pressure field  P (U 10,  T o,  T a, ) (1986 - 2005) Pressure fields directly from the PMF:  P (  o ) along all swaths (exclude 0 -  5° lat.?) (2001) (dropped in favor of I-PBL) Pressure fields directly from the PMF:  P (  o ) along all swaths (exclude 0 -  5° lat.?) (2001) (dropped in favor of I-PBL) Global swath pressure fields for QuikScat swaths (with global I-PBL model) (2005) Global swath pressure fields for QuikScat swaths (with global I-PBL model) (2005) Surface stress fields from PBL_LIB corrected for stratification effects along all swaths (2006) Surface stress fields from PBL_LIB corrected for stratification effects along all swaths (2006) R. A. Brown 2006

20 1980 – 2005: Using surface wind as a lower boundary condition on a PBL model, considerable information about the atmosphere and the PBL has been inferred. The symbiotic relation between surface backscatter data and the PBL model has been beneficial to both. The symbiotic relation between surface backscatter data and the PBL model has been beneficial to both. The PBL model has established superior ‘surface truth’ winds (or pressures) for the satellite model functions. The PBL model has established superior ‘surface truth’ winds (or pressures) for the satellite model functions. Satellite data have proven that the nonlinear PBL solution with OLE is observed most of the time. Satellite data have proven that the nonlinear PBL solution with OLE is observed most of the time. R. A. Brown 2006 AMS

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