Assimilating atmospheric data into a terrestrial biosphere model: A case study of the seasonal cycle
2002; Wiley; Volume: 16; Issue: 4 Linguagem: Inglês
10.1029/2001gb001463
ISSN1944-9224
AutoresT. Kaminski, Wolfgang Knorr, P. J. Rayner, Martin Heimann,
Tópico(s)Plant Water Relations and Carbon Dynamics
ResumoThis paper demonstrates a new method of assimilating atmospheric concentration data into terrestrial biosphere models. Using a combination of adjoint and tangent linear models of both the underlying biosphere model and the atmospheric transport model, we directly infer optimal model parameters and their uncertainties. We also compute biospheric fluxes and their uncertainties arising from these parameters. We demonstrate the method using the Simple Diagnostic Biosphere Model (SDBM) and data on the seasonal cycle of CO 2 from 41 observing sites. In the model, the light‐use efficiency for several biomes is well‐constrained by concentration observations. Optimal values generally increase with latitude as required to match the seasonal cycle. Modeled Q 10 values are poorly constrained unless local flux measurements are also used. Values also increase with latitude but are less than the commonly assumed value of 2.
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