Land Surface Models (LSMs) express some of our understanding of the land-climate interactions. The LSM of the UK Hadley Centre GCM (JULES) can be run off-line and a suite of experiments have been designed to test its performance against independent data sets. In the first stage of this benchmarking process, data sets have been chosen to test the ability of the model at a global scale to reproduce the monthly, regional water and carbon balance as well as the diurnal evolution of the water and energy fluxes. The data and tests are being shared at an international level to form an accepted land-climate benchmark test. An overview of the datasets chosen and the performance of JULES will be presented
Surface energy flux measurements from a sample of ten FLUXNET sites selected to represent a range of...
The authors assess the ability of 18 Earth system models to simulate the land and ocean carbon cycle...
International audienceAbstract. Evaluating land surface models (LSMs) using available observations i...
Evaluating the models we use in prediction is important as it allows us to identify uncertainties in...
This study evaluates the ability of the JULES land surface model (LSM) to simulate photosynthesis ...
Several groups of land surface modellers have set out a standard set of tests that will remain in ...
This manuscript describes the energy and water components of a new community land surface model cal...
The assessment of water resources and the prediction of future changes in water management are neces...
The land surface is a key component of climate models. It controls the partitioning of available ene...
International audienceEvaluating land surface models (LSMs) using available observations is importan...
Surface energy flux measurements from a sample of 10 flux network (FLUXNET) sites selected to repres...
International audience[1] We evaluated three global models of the coupled carbon-climate system agai...
Land surface models (LSMs) are increasingly called upon to represent not only the exchanges of energ...
Land-surface models (LSMs) are increasingly called upon to represent not only the exchanges of energ...
Surface energy flux measurements from a sample of ten FLUXNET sites selected to represent a range of...
The authors assess the ability of 18 Earth system models to simulate the land and ocean carbon cycle...
International audienceAbstract. Evaluating land surface models (LSMs) using available observations i...
Evaluating the models we use in prediction is important as it allows us to identify uncertainties in...
This study evaluates the ability of the JULES land surface model (LSM) to simulate photosynthesis ...
Several groups of land surface modellers have set out a standard set of tests that will remain in ...
This manuscript describes the energy and water components of a new community land surface model cal...
The assessment of water resources and the prediction of future changes in water management are neces...
The land surface is a key component of climate models. It controls the partitioning of available ene...
International audienceEvaluating land surface models (LSMs) using available observations is importan...
Surface energy flux measurements from a sample of 10 flux network (FLUXNET) sites selected to repres...
International audience[1] We evaluated three global models of the coupled carbon-climate system agai...
Land surface models (LSMs) are increasingly called upon to represent not only the exchanges of energ...
Land-surface models (LSMs) are increasingly called upon to represent not only the exchanges of energ...
Surface energy flux measurements from a sample of ten FLUXNET sites selected to represent a range of...
The authors assess the ability of 18 Earth system models to simulate the land and ocean carbon cycle...
International audienceAbstract. Evaluating land surface models (LSMs) using available observations i...