280 likes | 289 Views
Explore diagnostic aspects and effectiveness of the high and low resolution Nature Runs by ECMWF using various atmospheric statistics and collaborations with international meteorological organizations. Access metadata and data distribution details for in-depth analysis.
E N D
Agenda 1/11/2007 • Progress in Nature run distribution (Masutani) • 2. Preliminary synoptic evaluation of the ECMWF Nature Run at NASA GSFC(Oreste Reale) • 3. Diagnostic Aspects Of Two Nature Runs (Juan Carlos Jusem) • 4. Evaluation of ECMWF Nature Run using Extratropical Cyclone Statistics (Joe Terry) • 5. Other Diagnostics (Masutani et al.)
New Nature Run by ECMWF Based on Recommendations by JCSDA, NCEP, GMAO, GLA, SIVO, SWA, NESDIS, ESRL Low resolution Nature Run Spectral resolution : T511 Vertical level: L91 3 hourly dump Initial condition: 12Z May 1st, 2005 End at: 0Z Jun 1,2006 Daily SST and ICE (Provided by NCEP) Model: Version cy31r1 High resolution Nature Run for a selected period T799 resolution, 91 levels, one hourly dump Get initial conditions from L-NR 1x1 degree 31 level pressure data Potential temperature level data Selected time series of 1x1 degree are also available Convective precipitation, Large scale precipitation, MSLP, Z1000, Z500, U500, V500, T2m,TD2m, U10,V10, HCC, LCC, MCC, TCC, Sfc Skin Temp U200,V200, D200, PV 350K 330K 370K More with requests To be archived in the MARS system on the THORPEX server at ECMWF Accessed by external users expver=etwu Copies in US NCEP, NASA, and ESRL available to designated users and users known to ECMWF (Contact: Michiko Masutani) Nature Run home page http://www.emc.ncep.noaa.gov/research/osse/NR
Contacts for the New Nature Run • ECMWF Erik Andersson • NCEP Michiko Masutani • NASA/GSFC • Lars-Peter Riishojgaard(GMAO), Oreste Reale(GLA) • Joe Terry (SIVO) • JCSDA John LeMarshall • NESDIS Thomas J. Kleespies • SWA Steven Greco • ESRL Tom Schlatter • Air ForceDan Pawlak • THORPEX • Pierre Gauthier(DAOS) • David Person(USA) • Zoltan Toth (GIFS) • Met Office Richard Swinbank • Meteo France Jean Pailleux • KNMI Gert-Jan Marseille • EUMETSAT Jo Schmetz • ESA Eva Oriol • JMA Munehiko Yamaguchi, • Kozo Okamoto • MRI Tetsuo Nakazawa, Masahiro Hosaka • ES Takeshi Enomoto Extended international collaboration within Meteorological community is essential for timely and reliable OSSEs JCSDA , NCEP, NESDIS,NASA, ESRL ECMWF, ESA, EUMETSAT THORPEX, IPO Operational Test Center OTC – Joint THORPEX/JCSDA Simulation of the data must be done from model levels and at full resolution. Pressure level data will be available for diagnostics and evaluation; only limited isentropic level data will become available. BUFR format will be used
Data distribution to other users NR data was sent from ECMWF to NCEP in 4 disks. (Shipped beterrn Nov 06 and Jan07) LaCie usb2 1TB disks were used NCEP: Saving to Mass Storage to be completed in Jan 11 or 12, 2007 NASA: DISK 1 completed ESRL: DISK 1 content copied to ESRL disk the disk was shipped to Boulder.
Data size Total size 2.8-2.9 TB Model level data 2.41 TB Sfc 0.18 TB Pressure level 0.16 TB Potential Temperature 0.018 TB Files are tared in less than 2GB group Time series of one variable in 1x1 deg 13month 413 MB
Data distribution • Time series of 1x1 data in RZDM • Convective precipitation, Large scale precipitation, MSLP, Z1000, Z500, U500, V500, T2m,TD2m, U10,V10, HCC, LCC, MCC, TCC, Sfc Skin Temp • More time series are being generated • PV 350K 370K 330K, U200 V200 more • Complete data set from NASA SIVO????
Forecast run is used for the Nature Run Because the real atmosphere is a chaotic system governed mainly by conditions at its lower boundary, it does not matter that the Nature Run diverges from the real atmosphere. The Nature Run should be a separate universe, ultimately independent from but parallel to the real atmosphere. The Nature Run must have the same statistical behavior as the real atmosphere in every aspect relevant to the observing system under scrutiny. A succession of analyses is a collection of snapshots of the real atmosphere. Each analysis marks a discontinuity in model trajectory. Considering a succession of analyses as truth seems to be a serious compromise in the attempt to conduct a “clean” experiment. I favor a long, free-running forecast as the basis for defining “truth” in an OSSE. -- from Tom Schlatter Posted at http://www.emc.ncep.noaa.gov/research/osse/NR
Some initial diagnostics The SST, ice and Ts fields look OK, with the expected seasonal variations. The Z 500 also looks OK. Looking quickly at daily 1000 hPa Z maps for the Caribbean, I've been able to spot nine hurricanes between June and November. One made landfall in Florida (see attached ps-file). There might be some more hurricanes visible in the wind field? -- Erik Andersson
Area averaged precipitation Tropics NH midlatitude SH midlatitude Convective precipitation Large Scale precipitation Total precipitation It takes about one month to settle tropical precipitation.
NH Cyclone in January 2006 Joe Terry Thomas Jung
END http://www.emc.ncep.noaa.gov/research/osse
Cyclone tracks in the Nature Run Thomas Jung, ECMWF Annual total cyclone track
May February November August
NH Cyclone in January 2006 Joe Terry Thomas Jung
Total precipitation By Juan Carlos Jusem. NASA/GSFC SON JJA MAM DJF
JJA Precipitation anomaly Nature run Observed
Comparison between the ECMWF T511 Nature Run against climatology. 20050601-20060531, exp=eskb, cycle=31r1 Adrian Tompkins, ECMWF TechMemo 452 Tompkins et al. (2004) http://www.emc.ncep.noaa.gov/research/osse/NR/ECMWF_T511_diag/ tm452.pdf Jung et al. (2005) TechMemo 471 http://www.emc.ncep.noaa.gov/research/osse/NR/ECMWF_T511_diag/tm471.pdf Plot files are also posted at http://www.emc.ncep.noaa.gov/research/osse/NR/ECMWF_NR_Diag/ECMWF_T511_diag The description of the data http://www.emc.ncep.noaa.gov/research/osse/NR/ECMWF_T511_diag/climplot_README.html
Quickscat SFC wind SSMI 10m wind - Quikscat does not provide winds in rainy areas - Shows known bias in the W Pacific. Model winds are too low in deep convective areas.
**Total precipitation, against GPCP, SSMI, and XieArkin TRMM, NASDA and RSS - These comparisons confirm the lack of rainfall over the tropical land masses. - We have an overestimation of precip over the high-SST regions in the tropics. - There is a tendency for deep convection to become locked in with the highest SSTs, which in the east Pacific results in a narrow ITCZ. - The TRMM NASDA-3b43 algorithm is presumed to be the most accurate of the two TRMM retrieval products.
100% Lower + 100% Upper 100% Lower + 10% Targeted Upper 100% Lower + Non Scan 100% Lower + 10% Uniform Upper 100% Lower Non Scan only No Lidar (Conventional + NOAA11 and NOAA12 TOVS) Anomaly correlation difference from control Synoptic scale Meridional wind (V) 200hpa NH Feb13-Feb28 DWL-Lower is better than DWL-NonScan only With 100% DWL-Lower DWL-NonScan is better than uniform 10% DWL-Upper Targeted 10% DWL-Upper performs somewhat better than DWL-NonScan in the analysis DWL-NonScanperforms somewhat better than Targeted 10% DWL-Upperin 36-48 hour forecast CTL
Do not show the difference 100%L+ 0%U 100%L+100%U 100%L+10%U NODWL NODWL NOTOVS AC to Nature Run 500hPa height Total scale NH SH noDWL with TOVS noDWL noTOVS Z500 presents a very limited story 70% 90% 72 72
Need for OSSEs Quantitatively–based decisions on the design & implementation of future observing systems Evaluate possible future instruments without cost of developing, maintaining & using observing systems. There are significant time lags between instrument deployment and eventual operational NWP use.
OSSEs are a very labor intensive project. • DA (Data Assimilation) system will be prepared for the new data • OSSE helps understanding and formulation of observational errors • Enable data formatting and handling in advance of “live” instrument DA system will be different when the actual data become available If we cannot simulate observation, how could we assimilate observation? We need to present levels of confidence of the results from OSSEs. Comparison of OSSE by various DA system will be very important.
Nature Run: Serves as a true atmosphere for OSSEs Preparation of the Nature Run and simulation of basic observations consume a significant amount of resources. If different NRs are used by various DAs, it is hard to compare the results. Need one good new Nature Run which will be used by many OSSEs. Share the simulated data to compare the OSSE results by various DA systems to gain confidence in results.
Summary The current NCEP/JCSDA system has shown that OSSEs can provide critical information for assessing observational data impacts. The results also showed that theoretical explanations will not be satisfactory when designing future observing systems. The new Nature Run has been prepared with international teamwork: ECMWF, NOAA, NASA, THORPEX EUMETSAT, ESA
Summary Extended international collaboration within the Meteorological community is essential for timely and reliable OSSEs to influence decisions. OSSE and its evaluation will become affordable to the University and academic communities.
High density observations cannot help forecasts if the model does not have good resolution. Increasing vertical resolution in the analysis is important for high density observations. We have to work on a DA system for new instruments before the data become available. OSSE will be a very useful tool to prepare the DA system for new instruments.