Terrestrial biosphere models are indispensable tools for analyzing the biosphere-atmosphere exchange of carbon and water. Evaluation of these models using site level observations scrutinizes our current understanding of biospheric responses to meteorological variables. Here we propose a novel model-data comparison strategy considering that CO2 and H2O exchanges fluctuate on a wide range of timescales. Decomposing simulated and observed time series into subsignals allows to quantify model performance as a function of frequency, and to localize model-data disagreement in time. This approach is illustrated using site level predictions from two models of different complexity, Organizing Carbon and Hydrology in Dynamic Ecosystems (ORCHIDEE) and ...
Interannual variability in biosphere-atmosphere exchange of CO₂ is driven by a diverse range of biot...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
International audience[1] Our current understanding of terrestrial carbon processes is represented i...
Terrestrial biosphere models are indispensable tools for analyzing the biosphere-atmosphere exchange...
Terrestrial biosphere models are indispensable tools for analyzing the Biosphere-atmosphere exchange...
Terrestrial biosphere models are indispensable tools for analyzing the biosphere‐atmosphere exchange...
Interannual variability in biosphere-atmosphere exchange of CO2 is driven by a diverse range of biot...
1 Assessments of climate change impacts on the global carbon cycle have to rely on accurate models d...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
Models for the exchange of CO2 and H2O between the atmosphere and terrestrial ecosystems are needed ...
Interannual variability in biosphere-atmosphere exchange of CO₂ is driven by a diverse range of biot...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
International audience[1] Our current understanding of terrestrial carbon processes is represented i...
Terrestrial biosphere models are indispensable tools for analyzing the biosphere-atmosphere exchange...
Terrestrial biosphere models are indispensable tools for analyzing the Biosphere-atmosphere exchange...
Terrestrial biosphere models are indispensable tools for analyzing the biosphere‐atmosphere exchange...
Interannual variability in biosphere-atmosphere exchange of CO2 is driven by a diverse range of biot...
1 Assessments of climate change impacts on the global carbon cycle have to rely on accurate models d...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
Models for the exchange of CO2 and H2O between the atmosphere and terrestrial ecosystems are needed ...
Interannual variability in biosphere-atmosphere exchange of CO₂ is driven by a diverse range of biot...
Our current understanding of terrestrial carbon processes is represented in various models used to i...
International audience[1] Our current understanding of terrestrial carbon processes is represented i...