Land Surface Albedo Estimation and Cross Validation Based on GF-1 WFV Data

Wang, Zhe; Zhou, Hongmin; Wörns, MA; Fan, Wenrui; Wang, Jindi

doi:10.3390/atmos13101651

Atmosphere

2022

DOI: 10.3390/atmos13101651

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Land Surface Albedo Estimation and Cross Validation Based on GF-1 WFV Data

Zhe Wang

Hongmin Zhou

MA Wörns

et al.

Abstract: The land surface albedo (LSA) represents the ability of the land surface to reflect solar radiation. It is one of the driving factors in the energy balance of land surface radiation and in land–air interactions. In this paper, we estimated the land surface albedo based on GF-1 WFV satellite data that have a high spatial and temporal resolution and cross-validated the albedo estimation results. The albedo estimations and validations were performed in the Ganzhou District, Zhangye City, China, and the Sindh Prov… Show more

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Use of Geomatic Techniques for Mapping Suspended Solids in Aquatic Ecosystems: The Case Study of Guayas River, Ecuador

Yepez Ramírez,

Ricaurte Parraga,

Verdugo Arcos

2024

Eng. Technol. Appl. Sci. Res.

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Satellite images cover large remote areas and are useful for detecting and monitoring water bodies. In Ecuador, since 1950, the lower Guayas River basin has undergone significant natural and anthropogenic changes that have impacted its dynamics and sustainability. This study aims to analyze through in situ data and geomatic techniques the change that the river has undergone in a decade by mapping the Suspended Sediment Concentration (SSC). Increasing levels of pollution in the river have raised concerns, prompting various approaches to measure and mitigate sedimentation to maintain the sustainable quality of the watershed. The spatiotemporal variations of SSC in the Guayas River revealed a remarkable variability, influenced by the operation of reservoirs, changes in land use, erosion, and sedimentation causing SSC in 2013 to range from 64.82 to 707.06 mg/l in the satellite image of 9/16/2013 and from 87.58 to 933.36 mg/l in the image of 7/26/2023. Understanding this distribution is crucial for the environmental protection and sustainability of aquatic ecosystems. This study used Landsat 8 data, an atmospheric pre-correction, and a remote sensing model. The results indicate a creasing trend of SSC in the stretches of the Guayas River between 2013 and 2023, which allows the understanding of the spatiotemporal dynamics of suspended sediment transport.

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Use of Geomatic Techniques for Mapping Suspended Solids in Aquatic Ecosystems: The Case Study of Guayas River, Ecuador

Yepez Ramírez,

Ricaurte Parraga,

Verdugo Arcos

2024

Eng. Technol. Appl. Sci. Res.

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show abstract

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Land Surface Albedo Estimation and Cross Validation Based on GF-1 WFV Data

Cited by 1 publication

References 43 publications

Use of Geomatic Techniques for Mapping Suspended Solids in Aquatic Ecosystems: The Case Study of Guayas River, Ecuador

Use of Geomatic Techniques for Mapping Suspended Solids in Aquatic Ecosystems: The Case Study of Guayas River, Ecuador

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