1 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Blended SST Analysis Changes and Implications for the Buoy Network 1.Plans.

Slides:

Advertisements

Similar presentations

OSTIA : Transition to an Operational System John Stark, Craig Donlon. GlobColour / Medspiration Workshop, 4-6 Dec

Advertisements

Pathfinder –> MODIS -> VIIRS Evolution of a CDR Robert Evans, Peter Minnett, Guillermo Podesta Kay Kilpatrick (retired), Sue Walsh, Vicki Halliwell, Liz.

1 High resolution SST products for 2001 Satellite SST products and coverage In situ observations, coverage Quality control procedures Satellite error statistics.

Medspiration user meeting, dec 4-6 Use of Medspiration and GHRSST data in the Northern Seas Jacob L. Høyer & Søren Andersen Center for Ocean and Ice, Danish.

Sandra Castro, Gary Wick, Peter Minnett, Andrew Jessup & Bill Emery.

Aquarius/SAC-D Mission Validation Working Group Summary Gary Lagerloef 6 th Science Meeting; Seattle, WA, USA July 2010.

Characterizing and comparison of uncertainty in the AVHRR Pathfinder SST field, Versions 5 & 6 Robert Evans Guilllermo Podesta’ RSMAS Nov 8, 2010 with.

1 High Resolution Daily Sea Surface Temperature Analysis Errors Richard W. Reynolds (NOAA, CICS) Dudley B. Chelton (Oregon State University)

Aquarius optimum interpolation analysis for global and regional studies O. Melnichenko, P. Hacker, N. Maximenko, G. Lagerloef, and J. Potemra 2014 Aquarius/SAC-D.

1 A High Resolution Daily SST Analysis Richard W. Reynolds (NOAA, CICS) Dudley B. Chelton (Oregon State University) Thomas M. Smith (NOAA, STAR)

NOAA Climate Obs 4th Annual Review Silver Spring, MD May 10-12, NOAA’s National Climatic Data Center 1.SSTs for Daily SST OI NOAA’s National.

1 Improved Sea Surface Temperature (SST) Analyses for Climate NOAA’s National Climatic Data Center Asheville, NC Thomas M. Smith Richard W. Reynolds Kenneth.

1 Sea Surface Temperature Analyses NOAA’s National Climatic Data Center Asheville, NC Richard W. Reynolds.

Improved NCEP SST Analysis

1 Comparisons of Daily SST Analyses for NOAA’s National Climatic Data Center Asheville, NC Richard W. Reynolds (NOAA, NCDC) Dudley B. Chelton.

MISST FY1 team meeting April 5-6, Miami, FL NOAA: Gary Wick, Eric Bayler, Ken Casey, Andy Harris, Tim Mavor Navy: Bruce Mckenzie, Charlie Barron NASA:

Center for Satellite Applications and Research (STAR) Review 09 – 11 March 2010 Image: MODIS Land Group, NASA GSFC March 2000 POES-GOES Blended SST Analysis.

CPC Unified Gauge – Satellite Merged Precipitation Analysis for Improved Monitoring and Assessments of Global Climate Pingping Xie, Soo-Hyun Yoo,

IORAS activities for DRAKKAR in 2006 General topic: Development of long-term flux data set for interdecadal simulations with DRAKKAR models Task: Using.

VERIFICATION OF NDFD GRIDDED FORECASTS IN THE WESTERN UNITED STATES John Horel 1, David Myrick 1, Bradley Colman 2, Mark Jackson 3 1 NOAA Cooperative Institute.

Development and evaluation of Passive Microwave SWE retrieval equations for mountainous area Naoki Mizukami.

Dataset Development within the Surface Processes Group David I. Berry and Elizabeth C. Kent.

AN ENHANCED SST COMPOSITE FOR WEATHER FORECASTING AND REGIONAL CLIMATE STUDIES Gary Jedlovec 1, Jorge Vazquez 2, and Ed Armstrong 2 1NASA/MSFC Earth Science.

Page 1© Crown copyright HadISST2: progress and plans Nick Rayner, 14 th March 2007.

Combining CMORPH with Gauge Analysis over

Initial Trends in Cloud Amount from the AVHRR Pathfinder Atmospheres Extended (PATMOS-x) Data Set Andrew K Heidinger, Michael J Pavolonis**, Aleksandar.

DMI-OI analysis in the Arctic DMI-OI processing scheme or Arctic Arctic bias correction method Arctic L4 Reanalysis Biases (AATSR – Pathfinder) Validation.

Cooperative Research Programs (CoRP) Satellite Climate Studies Branch (SCSB) 1 1 Reconstruction of Near-Global Precipitation Variations Thomas Smith 1.

1 Agenda Review Issues Melbourne, May 2007 Kenneth S. Casey NOAA National Oceanographic Data Center May 2007 Gary Wick, Rapporteur GHRSST-8 Session-8 Reanalysis.

Application of in situ Observations to Current Satellite-Derived Sea Surface Temperature Products Gary A. Wick NOAA Earth System Research Laboratory With.

1 Motivation Motivation SST analysis products at NCDC SST analysis products at NCDC  Extended Reconstruction SST (ERSST) v.3b  Daily Optimum Interpolation.

2nd GODAE Observing System Evaluation Workshop - June Ocean state estimates from the observations Contributions and complementarities of Argo,

AMSR-E SSTs in the Multi-sensor Improved SST (MISST) for GODAE : A US contribution to GHRSST-PP Research, Data, and Impacts.

ESA Climate Change Initiative Phase-II Sea Surface Temperature (SST) Phase I results and Phase II plans for climate research Nick Rayner.

Ocean Surface heat fluxes Lisan Yu and Robert Weller

General Objective: Conduct R&D activities to improve the quality of SST products used by MERSEA modeling and assimilation centers and produce global, Atlantic.

Eileen Maturi 1, Jo Murray 2, Andy Harris 3, Paul Fieguth 4, John Sapper 1 1 NOAA/NESDIS, U.S.A., 2 Rutherford Appleton Laboratory, U.K., 3 University.

A high-resolution Aquarius OI SSS L4 analysis: 3-year, near-global, weekly, 0.5 degree grid Oleg Melnichenko, Peter Hacker, Nikolai Maximenko, and James.

One-year re-forecast ensembles with CCSM3.0 using initial states for 1 January and 1 July in Model: CCSM3 is a coupled climate model with state-of-the-art.

AQUA AMSR-E MODIS POES AVHRR TRMM TMI ENVISAT AATSR GOES Imager Multi-sensor Improved SST (MISST) for GODAE Part I: Chelle Gentemann, Gary Wick Part II:

1 Daily OI Analysis for Sea Surface Temperature NOAA’s National Climatic Data Center Asheville, NC Richard W. Reynolds (NOAA, NCDC) Thomas M. Smith (NOAA,

NOAA OCO 7 th Annual Observing System Review Silver Spring, MD 27 – 29 October NOAA’s National Climatic Data Center H.-M. Zhang R.W. Reynolds R.

Yi Chao Jet Propulsion Laboratory, California Institute of Technology

COMPARING HRPP PRODUCTS OVER LARGE SPACE AND TIME SCALES Wesley Berg Department of Atmospheric Science Colorado State University.

Impact of Blended MW-IR SST Analyses on NAVY Numerical Weather Prediction and Atmospheric Data Assimilation James Cummings, James Goerss, Nancy Baker Naval.

Infrared and Microwave Remote Sensing of Sea Surface Temperature Gary A. Wick NOAA Environmental Technology Laboratory January 14, 2004.

NOAA Environmental Technology Laboratory Gary A. Wick Observed Differences Between Infrared and Microwave Products Detailed comparisons between infrared.

A new high resolution satellite derived precipitation data set for climate studies Renu Joseph, T. Smith, M. R. P. Sapiano, and R. R. Ferraro Cooperative.

November 28, 2006 Derivation and Evaluation of Multi- Sensor SST Error Characteristics Gary Wick 1 and Sandra Castro 2 1 NOAA Earth System Research Laboratory.

NOAA Climate Observation Annual Review Silver, Spring, MD Sept. 3-5, Intercomparisons Among Global Daily SST Analyses NOAA’s National Climatic Data.

Cooperative Research Programs (CoRP) Satellite Climate Studies Branch (SCSB) 1 1 Reconstruction of Near-Global Precipitation Variations Based on Gauges.

BLUElink> Regional High-Resolution SST Analysis System – Verification and Inter-Comparison Helen Beggs Ocean & Marine Forecasting Group, BMRC, Bureau of.

CLIMAR-III, Gdynia, Poland, May 2008 Advances in the AVHRR Pathfinder Sea Surface Temperature Climate Data Record and its Connections with GHRSST Reanalysis.

AQUA AMSR-E MODIS POES AVHRR TRMM TMI ENVISAT AATSR Multi-satellite, multi-sensor data fusion: global daily 9 km SSTs from MODIS, AMSR-E, and TMI

1 Two- Stage High Resolution Daily SST Analysis Richard W. Reynolds (NOAA’s CICS) Dudley B. Chelton (Oregon State University) Thomas M. Smith (NOAA, STAR)

A comparison of AMSR-E and AATSR SST time-series A preliminary investigation into the effects of using cloud-cleared SST data as opposed to all-sky SST.

Use of high resolution global SST data in operational analysis and assimilation systems at the UK Met Office. Matt Martin, John Stark,

International GHRSST User Symposium Santa Rosa, California, USA 28-29th May 2009 MODIS Sea-Surface Temperatures Peter J Minnett & Robert H. Evans With.

2 Jun 09 UNCLASSIFIED 10th GHRSST Science Team Meeting Santa Rosa, CA 1 – 5 June Presented by Bruce McKenzie Charlie N. Barron, A.B. Kara, C. Rowley.

Characterizing and comparison of uncertainty in the AVHRR Pathfinder Versions 5 & 6 SST field to various reference fields Robert Evans Guilllermo Podesta’

Understanding and Improving Marine Air Temperatures David I. Berry and Elizabeth C. Kent National Oceanography Centre, Southampton

SST and SIC in HIRLAM and HARMONIE Mariken Homleid ALADIN/HIRLAM Workshop/ASM, 14 May 2009.

GHRSST-9 Perros-Guirec, France 9-13 June Intercomparisons Among Global Daily SST Analyses NOAA’s National Climatic Data Center Asheville, NC, USA.

High Resolution Gauge – Satellite Merged Analyses of Precipitation: A 15-Year Record Pingping Xie, Soo-Hyun Yoo, Robert Joyce, Yelena Yarosh, Shaorong.

1 Objective Determination of Feature Resolution in an SST Analysis Dudley B. Chelton (Oregon State University) Richard W. Reynolds (NOAA, CICS) Dimitris.

A Prototype Algorithm for Gauge – Satellite Merged Analysis of Daily Precipitation over Land

Validation of Satellite-derived Lake Surface Temperatures

The SST CCI: Scientific Approaches

NOAA Objective Sea Surface Salinity Analysis P. Xie, Y. Xue, and A

Thomas Smith1 Phillip A. Arkin2 George J. Huffman3 John J. Bates1

Presentation transcript:

1 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Blended SST Analysis Changes and Implications for the Buoy Network 1.Plans for New SST Analysis 2.Impact of New Analysis on In Situ SST Network Richard W. Reynolds*, Kenneth S. Casey +, Thomas M. Smith* & Huai-Min Zhang* * NOAA’s National Climatic Data Center + NOAA’s National Oceanographic Data Center

2 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Optimum Interpolation (OI) SST Analysis Reynolds et al. (2002) Data: in situ (ship and buoy) and operational satellite (AVHRR) observations blended for global coverage Record: November 1981 to present Resolution: weekly on 1 o spatial grid Analysis method: preliminary satellite bias corrections followed by OI analysis

3 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Real-Time, Global SST (RTG_SST) Thiébaux et al. (2003) Similarities with respect to Reynolds et al., OI –Same data: ship, buoy, day and night AVHRR –Same weekly AVHRR satellite bias correction Differences with respect to Reynolds et al. –Run daily instead of weekly –0.5 o spatial resolution instead of 1 o –Correlation scales smaller 100 km to 400 km instead of 400 km to 1000 km –Started in May 2001

4 NOAA’s National Climatic Data Center April 2005 Climate Observation Program SST Comparisons: Chelton and Wentz (2005) Included 3-day SST and SST gradient comparisons in 6 high gradient regions for Reynolds et al. Analysis RTG_SST Analysis AVHRR data averages AMSR-E data averages –The AMSR-E instrument produces global microwave SST satellite retrievals beginning in June 2002

5 NOAA’s National Climatic Data Center April 2005 Climate Observation Program From the figure note: Sparse AVHRR coverage Complete AMSR-E coverage except near land Gradient features lightly smoothed in RTG_SST and heavily smoothed in Reynolds SST gradients are not shown in AVHRR AMSR-E not used in Reynolds or RTG_SST Results suggest that many SST features evolve slowly 29 Jan 2003: SST and SST Gradients

6 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Pathfinder SST for Month of Jan 2003 From the figure note: Top Panel: Number of nights of data –Number of nights is small (<5) in Gulf Stream Bottom Panel: Average Pathfinder SST –Highest gradients missing However, Chelton and Wentz (2005) show RTG-SST has better skill than Reynolds et al.

7 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Plans to Improve Reynolds et al. OI Pilot Study Recompute higher resolution version –Temporal Resolution: Daily –Spatial Resolution: 0.25 o Data –AVHRR pathfinder data –Ship and buoy in situ data Initial period 2003 –Use constant spatial e-folding scales –Compare with AMSR-E and other independent in situ data Weekly large-scale satellite bias correction using in situ data needed for all satellites –Bias procedure recently upgraded to an OI analysis differences (in situ -satellite). This better smoothes biases in time

8 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Plans to Improve Reynolds et al. OI Extended Effort Recompute daily OI spatial correlation scales Analyze from January 1985 to present –January 1985 is the present start of AVHRR Pathfinder –Add new satellite products to OI AMSR, TMI and eventually MODIS and ATSR Present limitations –Diurnal cycle not resolved by daily analysis –Spatial grid resolution only 0.25 o –Skin bulk differences not included All input data sets to be saved and available to users at original resolution so that limitations can be corrected in later versions

9 NOAA’s National Climatic Data Center April 2005 Climate Observation Program In Situ Network Needed to Correct Satellite Biases Method Used to Simulate Biases OI analysis used with bias correction –For Jan 1990 to Dec 2002 –Climatology is first guess (FG) Satellite SSTs are simulated at actual data locations using EOFs of Biases with random temporal function –Satellite EOFs scaled to absolute maximum of 2 o C Buoy data are simulated on different grids RMS differences computed between the simulated OI and First Guess over time –If there were no buoy data, the RMS residual would be equal to the absolute value of the EOF –If there were complete buoy and/or ship sampling, the RMS would be 0

10 NOAA’s National Climatic Data Center April 2005 Climate Observation Program PSBS shown as a function of buoy density Potential is used because if satellite data have no biases, no buoy data are needed Satellite biases scaled so that PSBS without buoys is 2 o C Bias Goal is 0.5 o C Goal exceeded if Buoy Density is 2/10 o box Goal: 0.5 o C 2 Potential Satellite Bias Error (PSBE)

11 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Equivalent Buoy Density " Equivalent Buoy " defined by: Number of Ships/7 + Number of Buoys Because ships are nosier than buoys, 7 ships equals 1 buoy

12 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Potential Satellite Bias Error (PSBE) Goal: 0.5 o C Max PSBE = 2 o C Year SST Error (C o ) Better Goal: 0.2 o C

13 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Weekly OI Anomaly Average: 30 o S-30 o N OI analyses without bias correction 3 OI Analyses –AVHRR only –TMI only –TMI + AVHRR AVHRR only OI has negative bias relative to TMI only OI –Roughly -0.5 o C from Oct Feb 2003; End of NOAA-14 Combined TMI + AVHRR intermediate to other OIs 13

14 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Potential Satellite Bias Error (PSBE) Worst Case Estimates : NO In Situ Data 2 o C PSBE for AVHRR alone 1.5 o C PSBE: for 2 infrared sensors –1 o C when biases from instruments, independent errors –2 o C when biases from physical processes, not independent errors 1 o C for microwave and infrared sensors –Biases are independent These estimates need to be tested!

15 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Goal: 0.5 o C 2 Potential Satellite Bias Error (PSBE) PSBS shown as a function of buoy density " + " Satellite biases scaled so that PSBS without buoys is 2 o C "O" Satellite biases scaled so that PSBS without buoys is 1 o C Better Goal: 0.2 o C

16 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Potential Satellite Bias Error (PSBE) SST Error (C o ) Year Goal: 0.5 o C Max PSBE = 2 o C Max PSBE = 1 o C Better Goal: 0.2 o C

17 NOAA’s National Climatic Data Center April 2005 Climate Observation Program Summary Improved OI analysis to be computed –Daily on 1/4 o spatial grid –Using in situ and multiple satellite data Bias errors only impacted when satellite retrieval errors are independent Potential Satellite Bias Error (PSBE) introduced With current in situ network –PSBE ~ 0.6 o C using 1 satellite –PSBE ~ 0.4 o C using 2 satellites with independent errors satellite 17 April 2005 Climate Observation ProgramNOAA’s National Climatic Data Center