Temporal Stability Analysis for the Evaluation of Spatial and Temporal Patterns of Surface Water Quality

Better characterizing the spatio-temporal pattern of water quality would increase the ability to effectively manage water resources. This study applied the concept of temporal stability analysis (TSA) to explore the temporal characteristics of spatial variability in surface water quality. Measuremen...

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Bibliographic Details
Published in:Water resources management 2022-03, Vol.36 (4), p.1413-1429
Main Authors: Zhang, Xiaobin, Ma, Ligang, Zhu, Yihang, Lou, Weidong, Xie, Baoliang, Sheng, Li, Hu, Hao, Zheng, Kefeng, Gu, Qing
Format: Article
Language:English
Subjects:
Agricultural land
Ammonia
Atmospheric Sciences
Civil Engineering
Correlation analysis
Dissolved oxygen
Earth and Environmental Science
Earth Sciences
Economics
Environment
Error analysis
Geotechnical Engineering & Applied Earth Sciences
Hydrogeology
Hydrology/Water Resources
Indicators
Land use
Monitoring
Monitoring systems
Nitrogen
Phosphorus
Population density
Resource management
Root-mean-square errors
Socioeconomic aspects
Spatial variations
Stability
Stability analysis
Surface stability
Surface water
Water monitoring
Water quality
Water quality management
Water quality measurements
Water resources
Water resources management
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Summary:Better characterizing the spatio-temporal pattern of water quality would increase the ability to effectively manage water resources. This study applied the concept of temporal stability analysis (TSA) to explore the temporal characteristics of spatial variability in surface water quality. Measurement data from 41 monitoring stations in Qiantang River, China during 2017–2019 were used for analysis. The data included four water quality indicators: dissolved oxygen (DO), permanganate index (COD Mn ), total phosphorus (TP), and ammonia nitrogen (NH 3 –N). A Spearman’s rank correlation for each pair of monitoring times was performed to characterize the spatial pattern of water quality. A temporal analysis of relative differences was applied to examine the temporal stability of the sampling sites. The rank correlation analysis suggests that the spatial pattern of water quality was maintained for a specific period of time and the TP concentration was most temporally stable compared with the other three indicators across the study area. The standard deviation of the relative difference (SDRD) and index of temporal stability (ITS) were found to be better for identifying the stable sites compared to the mean absolute bias error (MABE) and root mean square error (RMSE) in this study. A correlation analysis between the temporal stability indices and potential influencing factors showed that land use proportions (forest, built-up land, and agricultural land), and socio-economic indicators (gross domestic product [GDP] and population density) were closely associated with the temporal stability of water quality. The results showed evidence that the TSA method was feasible and effective in identifying the temporal stability of surface water quality and optimizing the water quality monitoring program. This study’s method and findings can help improve surface water quality monitoring strategies and water resource management.
ISSN:0920-4741
1573-1650
DOI:10.1007/s11269-022-03090-8