REFERENCES
- 2010 paper by Petropoulos, Wooster, Carlson, and Drake: Verification of the SimSphere SVAT Model Performance In Simulating Land Surface Parameters At Selected CarboEurope IP Sites
- 1990 paper by Lynn and Carlson: A stomatal resistance model illustrating plant vs. external control of transpiration
- 1991 paper by Carlson and Lynn: The effects of plant water storage on transpiration and radiometric surface temperature
- 1996 paper by Olioso, Carlson, and Brisson: Simulation of diurnal transpiration and photosynthesis of a water stressed soybean crop
- 1999 paper by Grantz, Zhang, and Carlson: Observations and model simulations link stomatal inhibition to impaired hydraulic conductance following ozone exposure in cotton
- 2009 paper by Petropoulos, Wooster, Carlson, Kennedy, and Scholze: A global Bayesian sensitivity analysis of the 1d SimSphere soil–vegetation–atmospheric transfer (SVAT) model using Gaussian model emulation
- 2015 paper by Ireland, Petropoulous, Carlson, and Purdy: Addressing the ability of a land biosphere model to predict key biophysical vegetation characterisation parameters with Global Sensitivity Analysis
- 2015 paper by North, Petropoulos, Ireland, and McCalmont: Appraising the capability of a land biosphere model as a tool in modelling land surface interactions: results from its validation at selected European ecosystems
- 2015 paper by Petropoulos, North, Ireland, Srivastava, and Rendall,: Quantifying the prediction accuracy of a 1-D SVAT model at a range of ecosystems in the USA and Australia: evidence towards its use as a tool to study Earth's system interactions
- 2021 paper by Carlson, Person, Canich, and Petropoulos: Simsphere: A Downloadable Soil–Vegetation–Atmosphere–Transfer (SVAT) Model for Teaching and Research