We propose a long-term parameterization scheme for two critical parameters, zero-plane displacement height (d) and aerodynamic roughness length (z0m), that we further use in the Surface Energy Balance System (SEBS). A sensitivity analysis of SEBS indicated that these two parameters largely impact the estimated sensible heat and latent heat fluxes. First, we calibrated regression relationships between measured forest vertical parameters (Lorey’s height and the frontal area index (FAI)) and forest aboveground biomass (AGB). Next, we derived the interannual Lorey’s height and FAI values from our calibrated regression models and corresponding forest AGB dynamics that were converted from interannual carbon fluxes, as simulated from two incorpora...
This study improved simulation of forest carbon fluxes in the Changbai Mountains with a process-base...
Evapotranspiration (ET), which is comprised by evaporation from soil surface (E), transpiration (T) ...
Energy and mass transport between and within soils, canopies, and the atmosphere is an area of incre...
We propose a long-term parameterization scheme for two critical parameters, zero-plane displacement ...
© 2015 by the authors. We propose a long-term parameterization scheme for two critical parameters, z...
Parameterization methods which calculate turbulent heat and water fluxes with thermal remote sensing...
Evapotranspiration (ET) plays an important role in land-atmosphere coupling of energy, water, and ca...
Due to the limited availability of land surface temperature (LST) images, thermal-based evapotranspi...
© 2017 The Author(s) In this work, we present a strategy for obtaining forest above-ground biomass (...
Aerodynamic roughness length z(om) is an important parameter for reliably simulating surface fluxes....
The well-documented energy balance dynamics within forest ecosystems are poorly implemented in studi...
The ability of terrestrial biogeochemical models in predicting land-atmospheric carbon and water exc...
With the complex nature of land surfaces, more attention should be paid to the performance of remote...
Studies of global hydrologic cycles, carbon cycles and climate change are greatly facilitated when g...
The application of Land surface models (LSMs) at regional scales still faces challenges and large un...
This study improved simulation of forest carbon fluxes in the Changbai Mountains with a process-base...
Evapotranspiration (ET), which is comprised by evaporation from soil surface (E), transpiration (T) ...
Energy and mass transport between and within soils, canopies, and the atmosphere is an area of incre...
We propose a long-term parameterization scheme for two critical parameters, zero-plane displacement ...
© 2015 by the authors. We propose a long-term parameterization scheme for two critical parameters, z...
Parameterization methods which calculate turbulent heat and water fluxes with thermal remote sensing...
Evapotranspiration (ET) plays an important role in land-atmosphere coupling of energy, water, and ca...
Due to the limited availability of land surface temperature (LST) images, thermal-based evapotranspi...
© 2017 The Author(s) In this work, we present a strategy for obtaining forest above-ground biomass (...
Aerodynamic roughness length z(om) is an important parameter for reliably simulating surface fluxes....
The well-documented energy balance dynamics within forest ecosystems are poorly implemented in studi...
The ability of terrestrial biogeochemical models in predicting land-atmospheric carbon and water exc...
With the complex nature of land surfaces, more attention should be paid to the performance of remote...
Studies of global hydrologic cycles, carbon cycles and climate change are greatly facilitated when g...
The application of Land surface models (LSMs) at regional scales still faces challenges and large un...
This study improved simulation of forest carbon fluxes in the Changbai Mountains with a process-base...
Evapotranspiration (ET), which is comprised by evaporation from soil surface (E), transpiration (T) ...
Energy and mass transport between and within soils, canopies, and the atmosphere is an area of incre...