A Study of Land Surface Albedo Conversion Formulas Using Three-Dimensional Canopy Radiative Transfer Modeling

2017

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This paper proposes a benchmarking method for assessing the level of spatio-temporal variability of Essential Climate Variable (ECV) products against a reference taking into account acceptance criteria in terms of intensity and physical distance tolerances. This is based on a modified version of the gamma index that could be suitable for fitness-for-purpose assessment given that one can choose various criteria depending on applications.The method is first presented and then applied to both land and atmospheric ECVs. The terrestrial analysis concerns the global surface albedo, using monthly white-sky surface albedo in the visible, near-infrared and shortwave broadband spectral ranges at a spatial resolution of 0.05° using three sources of products. The latter study is conducted using monthly aerosol optical depth (AOD) products at 550 nm at a spatial resolution of 1° with four different datasets at the global scale. The analysis shows how the values of the gamma criteria impact the spatial and temporal results.As an example, if the Global Climate Observing System (GCOS) actual target measurements uncertainty is used as an acceptance criteria for the intensity tolerance the results show that: 1) the seasonal agreement for the surface albedo products varies over 20% to 40% of the terrestrial surface in the shortwave and near-infrared broadband and from 10% to 30% in the visible one and 2) the three aerosols optical depth products agree with the reference one for over 50% of the land surface only when the tolerance distance term is at 224km.

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Section: Discussionmentioning

confidence: 99%

Benchmarking of essential climate variables: Gamma index theory and results for surface albedo and aerosol optical depth

Cappucci

2017

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“…This strategy facilitated the interpretation of the results since various levels of difficulty and sources of uncertainty associated with the radiative sampling of different types of vegetation canopies was shown in (Gobron et al, 2008). In recent years, major progress has been made in 3D-Radiative Transfer (RT) canopy modelling for both in-situ and space products validation purposes such as the sampling strategy and upscaling processes (Adams et al, 2016;Calders et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Sentinel-3A and Sentinel-3B ocean land colour instrument green instantaneous fraction of absorbed photosynthetically active radiation

Morgan

Adams

et al. 2022

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Burned area and surface albedo products: Assessment of change consistency at global scale

Mota

Cappucci

et al. 2019