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Site-Level Model-Data Comparison

Site-Level Model-Data Comparison. A Proposed NACP Interim Synthesis Project Ken Davis, Peter Thornton, Kevin Schaefer, Dan Riciutto Coordinators. Site-level MDC: Rationale. Multi-scale synthesis is necessary to answer NACP science questions.

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Site-Level Model-Data Comparison

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  1. Site-Level Model-Data Comparison A Proposed NACP Interim Synthesis Project Ken Davis, Peter Thornton, Kevin Schaefer, Dan Riciutto Coordinators

  2. Site-level MDC: Rationale • Multi-scale synthesis is necessary to answer NACP science questions. • Diagnosis and attribution of carbon sources and sinks at regional to continental scales depends on: • Synthesis of remote sensing, inventory, emissions, and CO2 concentration measurements, and inverse and forward modeling approaches. • Quantitative assessment of uncertainty in measurements and modeling approaches. • Forward modeling uncertainty is poorly quantified. • Appropriate starting point is a site-level model-data synthesis.

  3. Site-level MDC: Objectives • Starting at the spatial scale of individual sites, establish quantitative framework that allows NACP investigators to answer the question: • “Are the various measurement and modeling estimates of carbon fluxes consistent with each other - and if not, why?” • Improve quantification of uncertainty for forward models and site-based measurements. • Identify strengths and weaknesses in models and measurements. • Migrate new knowledge up-scale in coordination with regional and continental-scale efforts.

  4. Site-level MDC: Approach • Anchor the comparison at AmeriFlux sites • Multiple years of energy, water and carbon fluxes • Ancillary physical and biological measurements (“template” exists, encourage site PIs to fill it in) • Initial selection of 25-30 potential sites • Introduce data from inventories as available. • Measurement teams produce their own best estimates of fluxes and flux uncertainty at each site. • Standardized filtering and gap-filling. • Standardized approach to uncertainty estimates • Random error • Systematic error (e.g. due to instrumentation, advection, data filtering, gap-filling)

  5. Site-level MDC: Approach (cont.) • Modeling teams produce their own best estimates of fluxes and flux uncertainty at each site for each model. • Protocol specifies model inputs and provides goals and examples for obtaining model uncertainty. • Each group can tackle the uncertainty problem however they see fit and are best able. • Groups encouraged to categorize multiple sources of uncertainty, for example due to: • Parameter estimation • Model structure and/or process representation • Initial / boundary conditions (e.g. representation of disturbance history, veg type, or diagnostic LAI) • Surface weather drivers • Each model has unique characteristics, and each modeling team has unique capabilities – avoid over-specifying the model uncertainty approach.

  6. Site-level MDC: Approach (cont.) • Measurement – modeling synthesis • Multiple teams will tackle several aspects of model-data comparison in parallel. • Protocol includes some example statistical tests that can incorporate the measured and modeled fluxes and their uncertainties to determine if they are consistent. • Teams will have flexibility to introduce additional statistical methods in the analysis, as needed. • Evaluation at multiple time scales: • Multi-year annual mean • Interannual variability • Seasonal • Synoptic • Diurnal • Workshop to initiate analysis

  7. Site-level MDC: Expected Results • Database of high-quality measurements and measurement uncertainty estimates. • Multi-model database of modeled fluxes and flux uncertainties. • Demonstration of model-data comparison methods that take advantage of uncertainty estimates. • Identification of major strengths and weaknesses in models and measurements. • Identification of critical process controls on fluxes • Quantification of forward model uncertainty and up-scaling to inform regional and continental-scale synthesis efforts.

  8. Site-level MDC: Participation • Draft site selection complete, but still need to contact measurement PIs to determine the final site list and measurement participants. • Currently about 25 AmeriFlux sites, 5 Fluxnet Canada sites. • Informal interest from inventory measurement communities, but need to formalize participation. • Open to any modeling group able to produce the flux estimates and flux uncertainties specified in the protocol • Focus on attracting forward modeling groups as initial phase • Open to other modeling approaches as resources permit

  9. Site-level MDC: Infrastructure • Management team (Thornton, Davis, Schaefer, Riciutto) • Lead initial protocol development and solicitation of participation • Coordinate with participants and other synthesis activities • Central data service • Measurements and uncertainties • Model inputs, outputs and uncertainties • Workshop prep and results • MAST-DC • Email lists

  10. Site-level MDC: Schedule • February: Identify participants and finalize protocol (draft available now) • April: Provide all standardized model inputs, including gap-filled weather data • July: Modeling and measurement groups provide best-estimate fluxes and flux uncertainties • August: Identify analysis teams, begin analysis • September: Workshop to evaluate initial analysis efforts, redirect, form new teams. • Fall: Continue analysis and work on papers • January: Present results at NACP PI meeting • Submit papers

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