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Can Topographic Effects on Solar Radiation Be Ignored: Evidence From the Tibetan Plateau

Yuyang Xian, Tianxing Wang, Wanchun Leng, Husi Letu, Jiancheng Shi, Gaofeng Wang, Xuewei Yan, Hongyin Yuan

2024Geophysical Research Letters19 citationsDOIOpen Access PDF

Abstract

Abstract The effect of topography on shortwave downward radiation (SWDR) is interest in the geoscience. However, such effects are rarely quantiatively and systematically evalulated, especially over the Tibetan Plateau region. With the geostationaly satellite measurements and topographic radiation model, this study reveals a heightened significance of topography on SWDR with increasing slope. Particularly in abrupt terrain (slopes >15°) the impact becomes pronounced, wherein the topographic radiative forcing (TRF) contributes 9.5% of the annual‐average SWDR. And the ratio of TRF to SWDR reaches a peak during winter, exceeding 150%. In annual‐average scales, the SWDR is 169 ± 38.4 W/m 2 and the corresponding TRF is 16.2 ± 22.6 W/m 2 . Seasonal variations manifest on northern and southern slopes, with the sourthern slopes significant in summer, while the northern ones significant in winter. Notably, topographic effects persist across spatial scales and remain evident at 5 km resolution, emphasizing the necessity of considering topography in SWDR product utilization.

Topics & Concepts

Plateau (mathematics)TerrainClimatologyGeologyShortwave radiationForcing (mathematics)Radiative forcingShortwaveAtmospheric sciencesSatellitePhysical geographyEnvironmental scienceRadiative transferRadiationClimate changeGeographyOceanographyMathematicsCartographyQuantum mechanicsPhysicsMathematical analysisAerospace engineeringEngineeringClimate variability and modelsAtmospheric aerosols and cloudsCryospheric studies and observations