Uncertainties in model projections of carbon cycling in terrestrial ecosystems stem from inaccurate parameterization of incorporated processes (endogenous uncertainties) and processes or drivers that are not accounted for by the model (exogenous uncertainties). Here, we assess endogenous and exogenous uncertainties using a model-data fusion framework benchmarked with an artificial neural network (ANN). We used 18 years of eddy-covariance carbon flux data from the Harvard forest, where ecosystem carbon uptake has doubled over the measurement period, along with 15 ancillary ecological data sets relative to the carbon cycle. We test the ability of combinations of diverse data to constrain projections of a process-based carbon cycle model, both...
We describe a model-data fusion (MDF) inter-comparison project (REFLEX), which compared various algo...
Global estimates of the land carbon sink are often based on simulations by terrestrial biosphere mod...
International audienceWe examined the changes to global net primary production (NPP), vegetation bio...
Uncertainties in model projections of carbon cycling in terrestrial ecosystems stem from inaccurate ...
Carbon storage dynamics in vegetation and soil are determined by the balance of carbon influx and tu...
Discrepancies between future projections of land carbon fluxes originate from different process repr...
Terrestrial ecosystem plays a critical role in the global carbon cycle and climate system. Therefore...
Models have been widely used to estimate carbon fluxes at regional scales, and the uncertainty of mo...
[1] We present an uncertainty analysis of gross ecosystem carbon exchange (GEE) estimates derived fr...
The terrestrial ecosystem sequesters about one-third of anthropogenic emissions each year, thereby p...
High-frequency eddy-covariance measurements of net ecosystem CO2 exchange (NEE) with the atmosphere ...
Phenology, the timing of recurring life cycle events, controls numerous land surface feedbacks to th...
Measurements of the net CO<sub>2</sub> flux between terrestrial ecosystems and the atmosphere using ...
Phenology, the timing of recurring life cycle events, controls numerous land surface feedbacks to th...
We describe a model-data fusion (MDF) inter-comparison project (REFLEX), which compared various algo...
Global estimates of the land carbon sink are often based on simulations by terrestrial biosphere mod...
International audienceWe examined the changes to global net primary production (NPP), vegetation bio...
Uncertainties in model projections of carbon cycling in terrestrial ecosystems stem from inaccurate ...
Carbon storage dynamics in vegetation and soil are determined by the balance of carbon influx and tu...
Discrepancies between future projections of land carbon fluxes originate from different process repr...
Terrestrial ecosystem plays a critical role in the global carbon cycle and climate system. Therefore...
Models have been widely used to estimate carbon fluxes at regional scales, and the uncertainty of mo...
[1] We present an uncertainty analysis of gross ecosystem carbon exchange (GEE) estimates derived fr...
The terrestrial ecosystem sequesters about one-third of anthropogenic emissions each year, thereby p...
High-frequency eddy-covariance measurements of net ecosystem CO2 exchange (NEE) with the atmosphere ...
Phenology, the timing of recurring life cycle events, controls numerous land surface feedbacks to th...
Measurements of the net CO<sub>2</sub> flux between terrestrial ecosystems and the atmosphere using ...
Phenology, the timing of recurring life cycle events, controls numerous land surface feedbacks to th...
We describe a model-data fusion (MDF) inter-comparison project (REFLEX), which compared various algo...
Global estimates of the land carbon sink are often based on simulations by terrestrial biosphere mod...
International audienceWe examined the changes to global net primary production (NPP), vegetation bio...