References

T. Kaminski, W. Knorr, M. Scholze, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Assimilation of MERIS FAPAR into a terrestrial vegetation model and mission design. Presentation at 2010 European Space Agency Living Planet Symposium, Bergen, July 2010.
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W. Knorr, T. Kaminski, M. Scholze, T. Kato, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Rapid Assessment of Vegetation Status using VIS and NIR Observations in a Data Assimilation System. Poster Presentation at HR GEO USER CONSULTATION WORKSHOP, Frascati, April 2010.
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T. Kaminski, W. Knorr, M. Scholze, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Assimilation of MERIS FAPAR into a terrestrial vegetation model and mission design. Poster Presentation at 1st TERRABITES Symposium, Hamburg, February 2010.
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T. Kaminski, W. Knorr, M. Scholze, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Assimilation of MERIS FAPAR into a Terrestrial Vegetation Model and Mission Design. In Proceedings of 2010 European Space Agency Living Planet Symposium, Bergen, Norway. European Space Agency, 2010.
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The contribution demonstrates the first simultaneous assimilation of FAPAR data and atmospheric CO₂ in a coarse resolution global CCDAS setup.

W. Knorr, T. Kaminski, M. Scholze, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Carbon cycle data assimilation using satellite-derived fapar and a new generic global phenology scheme. Geophysical Research Abstracts, 12, 2010.
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W. Knorr, T. Kaminski, M. Scholze, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Carbon cycle data assimilation with a generic phenology model. J. Geophys. Res., doi:10.1029/2009JG001119, 2010.
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The paper demonstrates the simultaneous assimilation of FAPAR data from the MERIS sensor at a number of sites. It is the first application that includes hydrology and phenology models in the core of CCDAS rather than running them in a pre step

W. Knorr, T. Kaminski, M. Scholze, N. Gobron, B. Pinty, R. Giering, and P.-P. Mathieu. Local-scale Carbon Cycle Data Assimilation using satellite-derived FAPAR with a generic phenology model. In Proceedings of 8th Carbon dioxide conference at Jena, 2009.
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W. Knorr, T. Kaminski, M. Scholze, N. Gobron, B. Pinty, and R. Giering. Remote Sensing Input for regional to global CO2 flux modelling. In Proceedings of 2nd MERIS/(A)ATSR User Workshop, Frascati, Italy. European Space Agency, 2008.
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The paper demonstrates the assimilation of FAPAR data from the MERIS sensor at a number of sites. It is the first application that includes hydrology and phenology models in the core of CCDAS rather than running them in a pre step

M. Scholze, T. Kaminski, P. Rayner, W. Knorr, and R. Giering. Propagating uncertainty through prognostic CCDAS simulations. J. Geophys. Res., page doi:10.1029/2007JD008642, 2007.
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T. Kaminski and P. J. Rayner. Assimilation and network design. In H. Dolman, A. Freibauer, and R. Valentini, editors, to appear in Observing the continental scale Greenhouse Gas Balance of Europe, Ecological Studies, chapter 3. Springer-Verlag, New York, 2007.
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Overview paper on quantitative network design for the carbon cycle

W. Knorr, N. Gobron, M. Scholze, T. Kaminski, R. Schnur, and B. Pinty. The impact of terrestrial biosphere carbon exchanges on the anomalous CO₂ increase in 2002 - 2003. Geophysical Research Letters, 34:doi:10.1029/2006GL029019, 2007.
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N. Gobron, B. Pinty, F. Mélin, M. Taberner, M.M. Verstraete, M. Robustelli, and J.L. Widlowski. Evaluation of the MERIS/ENVISAT FAPAR product. Advances in Space Research, 39(1):105-115, 2007.

B. Pinty, T. Lavergne, RE Dickinson, JL Widlowski, N. Gobron, and MM Verstraete. Simplifying the interaction of land surfaces with radiation for relating remote sensing products to climate models. J. Geophys. Res, 2006.

A two-flux scheme for the radiative transfer through the canopy using effective state variables is derived.

W. Knorr and J. Kattge. Inversion of terrestrial biosphere model parameter values against eddy covariance measurements using monte carlo sampling. Global Change Biology, 11:1333-1351, 2005.

P. Rayner, M. Scholze, W. Knorr, T. Kaminski, R. Giering, and H. Widmann. Two decades of terrestrial Carbon fluxes from a Carbon Cycle Data Assimilation System (CCDAS). Global Biogeochemical Cycles, 19:doi:10.1029/2004GB002254, 2005.
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I. C. Prentice, G. D. Farquhar, M. J. R. Fasham, M. L. Goulden, M. Heimann, V. J. Jaramillo, H. S. Kheshgi, C. Le Quéré, R. J. Scholes, and D. W. R. Wallace. The carbon cycle and atmospheric carbon dioxide. In J. T. Houghton, Y. Ding, D. J. Griggs, M. Noguer, P. J. van der Linden, X. Dai, K. Maskell, and C. A. Johnson, editors, Climate Change 2001: The Scientific basis, chapter 3, pages 183-237. Cambridge University Press, Cambridge, U.K., 2001.
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W. Knorr. Annual and interannual CO₂ exchanges of the terrestrial biosphere: process based simulations and uncertainties. Glob. Ecol. and Biogeogr., 9:225-252, 2000.

The paper presents and validates the terrestrial model BETHY that builds the core of CCDAS.