Abstract
With the acceleration of urbanization, increasing water pollution means that monitoring and evaluating urban water quality are of great importance. Although highly accurate, traditional evaluation methods are time consuming, laborious, and vastly insufficient in terms of the continuity of spatiotemporal coverage. In this study, a water quality assessment method based on remote sensing reflectance optical classification and the traditional grading principle is proposed. In this method, an optical water type (OWT) library was first constructed using the measured in situ remote sensing reflectance dataset based on fuzzy clustering technology. Then, comprehensive scoring rules were established by combining OWTs and 12 water quality parameters, and water quality was graded into different urban water quality levels (UWQLs) based on the scoring results. Using the proposed method, the relative water quality of urban waterbodies was qualitatively evaluated at the macro level based on images from the multispectral imager of Sentinel-2. In addition, there was a significant positive correlation between the UWQLs and the water quality index (WQI). These results indicate the potential of this method for quantitative assessment of urban water quality, providing a new way to evaluate water quality using remote sensing algorithms in the future.
Highlights
Urban waterbodies include rivers, ponds, lakes, and reservoirs, which have important functions in society, such as drinking water supply, flood control and drainage, tourist landscapes, and ecological corridors [1]
The results show that eight optical water type (OWT) could be obtained by FCMm clustering technology combined with the evaluation of trial and error
This study examined the relationship between the urban water quality levels (UWQLs) and water quality index (WQI) to explore the rationality of the UWQL and its potential to quantitatively assess urban water quality
Summary
Ponds, lakes, and reservoirs, which have important functions in society, such as drinking water supply, flood control and drainage, tourist landscapes, and ecological corridors [1]. With the acceleration of urbanization, pollutants such as nitrogen, phosphorus, harmful organic substances, heavy metals, and microorganisms produced by urban activities are discharged into the water environment and can exceed water quality standards. In this case, such pollutants cause the deterioration of water quality, seriously damaging waterbody functioning [2,3]. Water quality evaluation is the premise for environmental supervision departments to control water pollution [4,5].
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