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Intercomparison of US Land Surface Hydrologic Cycles from Multi-analyses & Models NOAA 30th Annual Climate Diagnostic & Prediction Workshop, 27 October,

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Presentation on theme: "Intercomparison of US Land Surface Hydrologic Cycles from Multi-analyses & Models NOAA 30th Annual Climate Diagnostic & Prediction Workshop, 27 October,"— Presentation transcript:

1 Intercomparison of US Land Surface Hydrologic Cycles from Multi-analyses & Models NOAA 30th Annual Climate Diagnostic & Prediction Workshop, 27 October, 2005, State College, PA Yun Fan & Huug van den Dool CPC/NCEP/NOAA

2 Outline Motivation Data Soil moisture annual cycle & long-term variability over Illinois Spatial & temporal correlations over CONUS Annual land surface hydrologic cycles CFS land surface predictability Summary

3 Motivation Soil Moisture (SM): one of key factors in environmental processes, such as meteorology, hydrology & et al. Accurate SM is important for Weather & climate prediction. Long-term large-scale in situ measurement not yet established Remote sensing – promising but immature Calculated SM: depends on quality of forcing & models Questions: Skills of soil moisture data sets Land surface hydrologic predictability of CFS Existing problems & possible reasons

4 8 Land Surface Datasets: 2.Three 50+ Year Retrospective Offline Runs 3.Three Reanalysis Datasets 1.Observations 18 Illinois soil moisture observation sites (1981- present)  S.E. Hollinger & S.A. Isard, 1994 RR - North American Regional Reanalysis (1979 - present)  F. Mesinger et al, 2003, 2005 R1 – NCEP-NCAR Global Reanalysis I (1948 - present)  E. Kalnay et al, 1996 & R. Kistler et al 2001 R2 – NCEP-DOE Global Reanalysis II (1979 - present)  M. Kanamitsu et al, 2002 Noah - Noah LSM Retrospective N-LDAS Run (1948-1998) – present  Y. Fan, H, van del Dool, D. Lomann & K. Mitchell, 2003 VIC - VIC LSM Retrospective N-LDAS Run (1950-2000)  E. Maurer, A. Wood, J. Adam, D. Lettenmaier & B. Nijssen, 2002 LB - CPC Leaky Bucket Soil Moisture Dataset  J. Huang, H. van den Dool & K. Georgakakos, 1996, Y. Fan & H. van den Dool, 2004 4.NCEP Climate Forecast System (CFS) Datasets  S.Saha et al 2005

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11 VICLBRRR2R1Obstemporal 0.860.810.740.550.710.80 Noah 0.910.860.570.600.83 VIC 0.910.630.490.72 LB 0.730.540.68 RR 0.630.47 R2 0.57 R1 Temporal anomaly correlations averaged over Illinois 0.61 ERA40

12 dW(t)/dt: soil water storage change P(t): precipitation E(t): evaporation R(t): surface runoff G(t): subsurface runoff Res=P-E-R-G-dW/dt

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17 Spatial & temporal anomaly correlations averaged over US spatialNoahVICLBRRR2R1temporal 0.830.810.710.520.48 Noah VIC 0.670.800.700.480.40 VIC LB 0.750.740.730.560.41 LB RR 0.570.600.680.540.33 RR R2 0.460.440.500.480.42 R2 R1 0.410.360.410.320.40 R1

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22 Summary I. By overall mean annual cycle & interannual variability 1. Offline retrospective runs are generally better than reanalyses Noah VIC LB RR R2 R1 Good --------------------------------------------------> poor 2. All other models (except Noah) either too dry and or too large annual cycle 3. Three reanalyses (RR > R2 > R1) shown steadily improvements II. RR has not reached its potential III. CFS (land surface soil moisture) 1. Good prediction skill (cr > 0.6, against to R2) for up to 5 months 2. Dry bias increase & delayed anomalies with lead time increase IV. Looking forward to R3

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