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February 4 th , 2013 NACP All Investigators Meeting, Albuquerque, NM Deborah Huntzinger

Multi -Scale Synthesis and Terrestrial Model Intercomparison Project – A Systematic Approach for Evaluating Land-Atmosphere Flux Estimates . February 4 th , 2013 NACP All Investigators Meeting, Albuquerque, NM Deborah Huntzinger

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February 4 th , 2013 NACP All Investigators Meeting, Albuquerque, NM Deborah Huntzinger

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  1. Multi-Scale Synthesis and Terrestrial Model Intercomparison Project – A Systematic Approach for Evaluating Land-Atmosphere Flux Estimates February 4th, 2013 NACP All Investigators Meeting, Albuquerque, NM Deborah Huntzinger C. Schwalm, A. Michalak, W. Post, K. Schaefer, A. Jacobson. Y. Wei, R. Cook, & MsTMIP Participants

  2. Future projections depend, in part, on ability to model land-atmosphere carbon exchange Huntzinger et al. (2012) Ecological Modeling Friedlingstein et al. 2006

  3. Land surface Models Understanding of system / Policy and management choices Input data Initial conditions Parameter values Assumptions Process inclusion & formulation

  4. How do intermodel differences influence variability or uncertainty in model results? • Parametric uncertainty • Structural uncertainty: • In order to quantify, need: • Large community of models • Strict simulation protocol Input data Initial conditions Parameter values Assumptions Process inclusion & formulation

  5. Multi-scale Synthesis & Terrestrial Model Intercomparison Project (MsTMIP) Unique in several ways: • Two spatial scales: Global (0.5° by 0.5°); North America (0.25° by 0.25°); • Two distinct sets of standardized environmental input data • Climate, land cover & land-use/land-cover change history, phenology, atmospheric CO2, nitrogen deposition rates, soil, C3/C4 grass, major crops • Includes over 20 different TBMs • 110-year simulation period (1901-2010) • 10 different simulations model to assess sensitivity to different forcing factors • Evaluation of model performance against available observations (benchmarking)

  6. MsTMIP Simulations: Global Reference simulations  spin-up run out to 2010 Sensitivity simulations turn one variable component on at a time to systematically test the impact of climate variability, CO2 fertilization, nitrogen limitation, and land cover / land-use change on carbon exchange. Baseline simulations  model’s best estimate of net land-atmosphere carbon flux (everything turned on) Changing land-use, land-cover, CO2 concentrations, nitrogen deposition rates, etc. 1801 1901 1980 2010 Start monthly output Start 3-hourly output Stop Start with steady-state initial conditions

  7. MsTMIP experimental design represents a set of collective hypotheses: • Strict protocol isolatesources of differences • Similar structural characteristics similar estimates of fluxes, carbon pools, etc. • Sensitivity to forcing factors will differ among models

  8. Does strict protocol help to isolate sources if different in model output? NACP Regional Interim Synthesis vs. MsTMIPMean GPP for North America (2000-2005) Range Interquartile range Median 5 models (CLM, DLEM, LPJ, ORCHIDEE, VEGAS) Huntzinger et al., (2012) GMD in prep.

  9. MsTMIP models Steady-state results • 10 models • GPP varies by factor of 2 in tropics • Soil carbon pool size in NHL ranges from 5 – 60 kg C m-2 • Total living biomass varies by factor of 3.5 in tropics Range Interquartile range Median Huntzinger et al., (2012) GMD in prep.

  10. “Best estimate” (1982 -2010) Range Interquartile range Median Total living biomass 9 models (BIOME-BGC, CLM, CLM4ViC, DLEM, LPJ, ORCHIDEE, TRIPLEX-GHGm, VEGAS, VISIT)

  11. “Hot spots” of interannual variability (IAV) (1982-2010) Map highlights areas where the models show the greatest degree of interannual variability (IAV) 75% 90% 95%

  12. Compare simulated GPP to other GPP products: MODIS-GPP (Zhao and Running, 2010) MPI-BGC (Jung et al., 2011)

  13. MsTMIP experimental design represents a set of collective hypotheses: • Strict protocol isolate sources of differences • Similar structural characteristics similar estimates of fluxes, carbon pools, etc. • Sensitivity to forcing factors will differ among models Need to identify models that share similar characteristics

  14. Visualizing model structural differences using dendrograms Huntzinger et al., (2012) GMD in prep.

  15. Do models with similar structural characteristics will have similar estimates of flux? Mean global GPP (1982-2010) Overall model structural differences

  16. Model sensitivity to different environmental drivers Global Net GPP

  17. Change in GPP (relative to SS) with each simulation Dynamic Land Ecosystem Model (DLEM) Nitrogen dynamics Time-varying atmospheric CO2 Time-varying climate Land-use, land-cover change history

  18. (DLEM) Additive change in GPP attributed to different forcing factors N-cycling Atm. CO2 LULCC Climate

  19. Model sensitivity to different environmental drivers (1982-2010)

  20. Summary and what’s next • We can evaluate model results in a way that was not possible with the NACP regional synthesis activity: • Attribute inter-model variability to structural differences • Quantify sensitivity of models (and their estimates) to forcing factors • Model-data evaluation (benchmarking) is currently underway. Will evaluate model performance as a function of: • Domain (Site, North America, Global) • Spatial and temporal resolution of driver data • MsTMIP workshop following meeting

  21. Acknowledgements • Funding for MsTMIP: • NASA Terrestrial Ecology Program Grant No. NNX10AG01A • NOAA • Data/model output management and processing • MAST-DC and ORNL DAAC • MsTMIP modeling teams: • John Kim (BIOMAP); Weile Wang (Biome-BGC ); AltafArain (CLASS-CTEM-N+); Dan Hayes (CLM and TEM6); Mayoi Huang (CLM4-VIC); HanqinTian (DLEM); Dan Riccuito (GTEC); Tom Hilinksi (IRC/DayCent5); Atul Jain (ISAM); Ben Poulter(LPJ); Dominique Bachelet (MC1); Josh Fisher (JULES, ORCHIDEE, SIB3, ShushiPeng and GwenaelleBerthier (ORCHIDEE); Kevin Schaefer (SiBCASA); Rob Braswell (SIPNET); ChanqhuiPeng (TRIPLEX-GHG); NingZeng (VEGAS); Akihiko Ito (VISIT)

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