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Topic 7: Flux and remote sensing, merging data products, future directions 1. Databases (new-generation flux maps) (1) Make them available (online or offline)

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Presentation on theme: "Topic 7: Flux and remote sensing, merging data products, future directions 1. Databases (new-generation flux maps) (1) Make them available (online or offline)"— Presentation transcript:

1 Topic 7: Flux and remote sensing, merging data products, future directions 1. Databases (new-generation flux maps) (1) Make them available (online or offline) (2) Self-explanatory file format (e.g., NetCDF) (3) Gridded Flux Subsets? (similar to MODIS Subsets) -Something to give to flux tower PIs -Feedbacks from tower PIs -A standard or multiple data products?

2 2. Future directions (1)Start to account for disturbance effects (2)Uncertainty assessment (input data, scaling, parameters, model structure) -> “true” uncertainty bounds (3)Evaluate ecosystem services (e.g., carbon sequestration, food and wood production, water yield) (4)Evaluate and improve Earth System Models (ESMs) (5)Merging data products and intercomparison -Juxtaposition of upscaling methods and gridded flux fields -RCN II? -Resources to facilitate this exercise

3 Data Management/User Support Deb Agarwal – Berkeley Lab Gilberto Pastorello – Univ. of Alberta

4 What does data synthesis support infrastructure look like? Evolves – Archive(s) of raw data – Federated catalog of data locations/inventories – Development of data products – Integrated database – Data analysis tools and support – Rama’s knowledge center

5 Developing the Knowledge-base Publications – linked to data/methodology Documentation of collection and processing methods – Publication of methodology – Visual flow description/assumptions detail – Enabling an external user to understand and repeat Metadata collection and maintenance – Calibration – Disturbances – Biological information – Descriptions Development of a living data management system/ecosystem Ability to drill down from end product all the way to original raw data

6 Standards Equipment Metadata Data formats – Raw – Processed Data products Data sharing formats/methods Data access rules

7 Constraints Science objectives – Budgets – Products Man power (passionate people) Level of maturity of the technology/processing/standardization

8 Where do we go from here? Footprints? Synthesis efforts? Data products? Development of a data management plan to support? Fluxdata.org blog available as a discussion portal

9 FLUXCOM(P) – Intro for discussion FLUXNET and Remote Sensing: Open workshop Berkeley, June 2011

10 FLUXCOM – motivation and goals Structurally different approaches to up-scaling from flux-towers to continent and globe (Xiao et al, Ichii et al, Jung et al., Beer et al., Fisher et al, Papale et al.,….) Common question: How do we make use of the information from FLUXNET at site level and integrate with “global data” (remote sensing, reanalysis)? P

11 Similar situation as atm C-science years ago IPCC 2007 Atmospheric CO 2 concentration network Large-scale biosphere-atmosphere flux estimates Wind fields, Transport modelling Bio-Atm flux network Remote sensing and meteo fields, „Biosphere“ modelling Spatially explicit flux estimates Key differences (“advantage FLUXNET”): Flux predicted from flux (  crossvalidation possible) Spatially explicit at potentially high resolution High-temporal resolution possible (incl. diurnal)

12  Proposal to use LaThuille synthesis data

13 Questions to be discussed Who wants to participate to this community effort? – Create predictor variables (locally, globally) – Apply up-scaling algorithm (core of intercomp) – Analysis of intercomparison –  come-up with mailing list What is an appropriate protocol? – Compromise between comparability and “freedom” – Compromise between wishes and feasibility – Addressing uncertainties (obs data, representation, driving data)

14 Towards a protocol (suggestions) Output target – Limited by drivers and comp efficiency – Monthly/sub-monthly(?) fluxes (carbon, energy) – 0.5° latlon tiled by IGBP vegetation type Predictors – Let’s make a list what is already used (must be available globally…) E.g. Short-wave rad, VPD, Tair, Precip, wind speed EVI, NDVI, FAPAR, LSWI, soil moisture… Training/Validation/Application approach – One standardized approach with minimum data set (same predictors, and grids  only differ on “how” information is extracted (feature selection, machine learning algorithm) – Factorial approach wrt drivers (x meteo data sets, y FPAR sets) for some approaches – Free approach….

15 A list… Approach / PI / emailPredictorsTarget variables

16 FLUXNET gridded products rationale: (Direct) observations (Free-running) C 4 -models Offline DGVM Remote sensing models (CASA, MOD17) Empirical ‘models’ … be as much as possible on observational side!

17 remote sensing of CO 2 Temporal scale Spatial scale [km] hour day week month year decade century local 0.1 1 10 100 1000 10 000 global Countries EU plot/site tall tower obser- vatories Gridded Forest/soil inventories Eddy covariance towers Landsurface remote sensing From point to globe via integration with remote sensing Tree rings

18 Ensemble median map GPP [gC m -2 yr -1 ] Global estimation of terrestrial gross primary productivity (GPP) Global total: 123 +-8 Pg/yr Light-use eff. ignores C4 veg (> 20 Pg) Beer et al. (2010), Science Model tree ensembles ANN Semi-empirical Water-use Light-use eff. Machine learning PFT+Clim

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