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Using AmeriFlux Observations in the NACP Site-level Interim Synthesis Kevin Schaefer NACP Site Synthesis Team Flux Tower PIs Modeling Teams.

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Presentation on theme: "Using AmeriFlux Observations in the NACP Site-level Interim Synthesis Kevin Schaefer NACP Site Synthesis Team Flux Tower PIs Modeling Teams."— Presentation transcript:

1 Using AmeriFlux Observations in the NACP Site-level Interim Synthesis Kevin Schaefer NACP Site Synthesis Team Flux Tower PIs Modeling Teams

2 Do models match observations? If not, why? 30 Models47 Flux Tower Sites 36 AmeriFlux 11 Fluxnet Canada 24 submitted output 10 runs per site

3 Analysis Projects Published Submitted

4 Products Derived from Flux Data Gap-filled observed weather (Ricciuto et al.) BADM files (everyone) Gap-filled fluxes & Uncertainty (Barr et al.) Random U* threshold Gap-filling Algorithm Partitioning Algorithm

5 Random Uncertainty (Barr et al.) Needleleaf Forest Broadleaf Forest Mixedwood Forest Juvenile Forest Wetland Grassland Shrubland Cropland ▲ USA ● Canada Annual  NEP (g C m -2 y -1 ) Annual R e (g C m -2 y -1 ) Random  NEP ~4% R e U* th  NEP ~1.3% R e

6 BADM Files Extremely useful to modelers Soil texture Site history Initial pools sizes Leaf Area Index We strongly encourage more submissions

7 Weather Uncertainty (Ricciuto et al.) Bias in radiation produces bias in GPP

8 Agriculture Sites (Lokupitiya et al.) Need crop specific parameterizations SoybeanCorn Soybean US-Ne3

9 Wetland Sites (Desai et al.) Residuals correlate to water table depth Models should include water table dynamics GPP residuals Residuals  mol m -2 s -1 R eco residuals Residuals  mol m -2 s -1 Water Table Depth (cm)

10 Spectral NEE Error (Dietze et al.) Diurnal Annual Synoptic Month Error peak at diurnal & annual time scales Errors at synoptic & monthly time scales Not Significant

11 NEE Wavelet Coherence (Stoy et al.) Time Scale (hours) Hour Diurnal Month Synoptic Annual SiB at US-UMB Significant Models match observations only some of the time

12 NEE Seasonal Cycle (Schwalm et al.) 0.4 0.5 0.6 0111512 3 7910 Number Soil Layers Taylor Skill 0.4 0.5 0.6 Semi-ProgPrescribedPrognostic Phenology Improve prognostic phenology Add soil layers 0.4 0.5 0.6 8903467 Number Veg Pools Add vegetation pools Taylor Skill

13 Phenology (Richardson et al.) Early/late uptake means positive GPP bias Models need better phenology

14 Regional vs. Site (Raczka et al.) Enzyme kinetic models biased high LUE models biased low Flux Towers Light Use Efficiency Enzyme Kinetic

15 GPP Annual Bias (Schaefer et al.) Slope of LUE Curve drives Annual bias Models need better V max, leaf-to-canopy scaling, … Daily Average Shortwave Radiation (W m -2 ) Daily Average GPP (  mol m -2 s -1 ) Observed Simulated US-Me2 Light Use Efficiency Curve

16 Areas For Model Development Better Phenology More soil layers More vegetation pools Slopes to LUE curve Water table dynamics Crop parameterizations

17 Extra Slides

18 Annual GPP Bias due to Phenology Evergreen sites Deciduous sites 160±145 75±130 40±80 -5±65

19 Multi-Model wavelet Coherence Scale (hours)

20 NEE Seasonal Cycle (Schwalm et al.) Taylor Skill Normalized Mean Absolute Error Chi-squared Our 1 st published paper! Perfect Model

21 Needleleaf Forest Broadleaf Forest Mixedwood Forest Juvenile Forest Wetland Grassland Shrubland Cropland ▲ USA ● Canada U*th Annual  NEP (g C m -2 y -1 ) Random Annual  NEP (g C m -2 y -1 ) U *th vs. Random Uncertainty (Barr et al.)


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