Add to ORKGAccurate assessments of the CO2 fluxes between the terrestrial ecosystems and the atmosphere are pressingly needed for the climate change and carbon cycle studies. The Collatz et al. parameterization of leaf photosynthesis-stomatal conductance has been widely applied in land surface parameterization schemes for simulating the land surface CO2 fluxes. The study in this paper developed an analytical solution approach for the Collatz et al.'s parameterization for stable solution and computational efficiency. This analytical approach is then applied to the simplified biosphere model (SSiB), enhancing its capability of simulating land surface CO2 fluxes. The enhanced SSiB model is tested with field observation data sets from two Amazonian field ...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
Tropical forests are an important part of global water and energy cycles, but the mechanisms that dr...
Tropical forests are an important part of global water and energy cycles, but the mechanisms that dr...
A land-surface model (MOSES) was tested against observed fluxes of heat, vapour and carbon dioxide f...
[1] A conceptual framework is developed using atmospheric measurements from aircraft to determine fl...
International audience[1] In some regions of the Amazon, global biogeophysical models have difficult...
Simulations of anthropogenically induced change in the coupled climate-carbon cycle system suggest t...
Given the importance of Amazon rainforest in the global carbon and hydrological cycles, there is a n...
Detailed one-dimensional multilayer biosphere-atmosphere models, also referred to as CANVEG models, ...
We evaluate the ISBACC (Interaction Soil Biosphere Atmosphere Carbon Cycle) land surface model (LSM)...
The simplified Simple Biosphere model (SSiB) has been validated using observed meteorological, turbu...
Given the importance of Amazon rainforest in the global carbon and hydrological cycles, there is a n...
In some regions of the Amazon, global biogeophysical models have difficulties in reproducing measure...
Reyers M, Krueger A, Werner C, Pinto JG, Zacharias S, Kerschgens M. The Simulation of the Opposing F...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
Tropical forests are an important part of global water and energy cycles, but the mechanisms that dr...
Tropical forests are an important part of global water and energy cycles, but the mechanisms that dr...
A land-surface model (MOSES) was tested against observed fluxes of heat, vapour and carbon dioxide f...
[1] A conceptual framework is developed using atmospheric measurements from aircraft to determine fl...
International audience[1] In some regions of the Amazon, global biogeophysical models have difficult...
Simulations of anthropogenically induced change in the coupled climate-carbon cycle system suggest t...
Given the importance of Amazon rainforest in the global carbon and hydrological cycles, there is a n...
Detailed one-dimensional multilayer biosphere-atmosphere models, also referred to as CANVEG models, ...
We evaluate the ISBACC (Interaction Soil Biosphere Atmosphere Carbon Cycle) land surface model (LSM)...
The simplified Simple Biosphere model (SSiB) has been validated using observed meteorological, turbu...
Given the importance of Amazon rainforest in the global carbon and hydrological cycles, there is a n...
In some regions of the Amazon, global biogeophysical models have difficulties in reproducing measure...
Reyers M, Krueger A, Werner C, Pinto JG, Zacharias S, Kerschgens M. The Simulation of the Opposing F...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
Tropical forests are an important part of global water and energy cycles, but the mechanisms that dr...
Tropical forests are an important part of global water and energy cycles, but the mechanisms that dr...