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GSV-SRTS: a heterogeneous landscape soil-canopy reflectance model over sloping terrain with an extended GSV and stochastic radiative transfer theory

S. Li et al · Copernicus Publications · 2026

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<p>Accurately modelling radiation interactions within canopy layers and soil backgrounds is crucial for biophysical variables retrieval across regional or global scales. However, terrain relief introduces significant uncertainties in modeling CR by modulating solar and viewing geometry and exacerbating landscape heterogeneity. Traditional CR models, designed primarily for flat and homogeneous landscapes, often inadequately represent these complex interactions. In this study, we present a canopy reflectance model suitable for heterogeneous structures on sloping terrain. By extending the stochastic radiative transfer theory from flat terrain to sloping terrain and integrating the soil General Spectral Vector, the GSV-SRTS model was introduced. This enables accurate prediction of soil-canopy radiative transfer within subpixel 3D heterogeneous mountain landscapes. The proposed GSV-SRTS model was evaluated against the Discrete Anisotropic Radiative Transfer (DART) model, compared with typical mountain canopy reflectance models, and validated against remote sensing observations at varying spatial resolutions. The results showed that the GSV-SRTS model achieves good accuracy in the comparisons with DART (<span class="inline-formula"><i>R</i><sup>2</sup>=0.9136</span> (0.9052) and root-mean-square errors <span class="inline-formula">(RMSE)=0.0246</span> (0.0216) in the red (NIR (Near-Infrared)) band) and performs well in real mountainous areas, particularly with high spatial resolution remote sensing observations (<span class="inline-formula"><i>R</i><sup>2</sup>=0.9078</span> (0.9143) and <span class="inline-formula">RMSE=0.0201</span> (0.0212)). Furthermore, the GSV-SRTS model effectively captures the impacts of canopy structure and terrain factors on bidirectional reflectance. This underscores the GSV-SRTS model as a reliable physical tool for simulating radiation regimes over sloping terrain, with the potential to enhance the accuracy of biophysical variable retrieval from remote sensing observations.</p>

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APA 7

al, S. L. E. (2026). GSV-SRTS: a heterogeneous landscape soil-canopy reflectance model over sloping terrain with an extended GSV and stochastic radiative transfer theory. https://doi.org/10.5194/gmd-19-3531-2026

MLA

al, S. Li et. "GSV-SRTS: a heterogeneous landscape soil-canopy reflectance model over sloping terrain with an extended GSV and stochastic radiative transfer theory." 2026. https://doi.org/10.5194/gmd-19-3531-2026.

Chicago

al, S. Li et. 2026. "GSV-SRTS: a heterogeneous landscape soil-canopy reflectance model over sloping terrain with an extended GSV and stochastic radiative transfer theory.". https://doi.org/10.5194/gmd-19-3531-2026.

Harvard

al, S. L. E. 2026, GSV-SRTS: a heterogeneous landscape soil-canopy reflectance model over sloping terrain with an extended GSV and stochastic radiative transfer theory, Copernicus Publications, available at: https://doi.org/10.5194/gmd-19-3531-2026 [Accessed 29 Jun. 2026].

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Título
GSV-SRTS: a heterogeneous landscape soil-canopy reflectance model over sloping terrain with an extended GSV and stochastic radiative transfer theory
Autor / colaboradores
S. Li et al
Editorial
Copernicus Publications
Año de publicación
2026
ISSN
1991-959X
ISSN
1991-959X
Idioma
eng
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