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A novel calendar-based method for visualizing water quality change: The case of the Yangtze River 2006-2015

Water (Switzerland) (2017) 9(9)
DOI: 10.3390/w9090708
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Abstract

Mapping water quality change is helpful in the study of the water environment of a region. Using visual methods, interpretation of water condition and pollution issues can be intuitive and easy to understand. In this paper, we present a map to represent the spatial and temporal variation of water quality change in the Yangtze River during the period from 2006 to 2015. The calendar view was developed to explore the water quality condition and water pollutants for sections of the Yangtze River. A "W" construction was proposed to arrange the weekly water quality data in a continuous logic, and qualitative colors were designed to identify the change in major pollutants throughout the period. This map provides a promising visual analytical approach to investigate the water quality status and reveal the spatial and temporal patterns of water quality change in the Yangtze River.

Figures

  • Figure 1. Location and the main topographic features of the Yangtze River. Figure 1. Location and the main topographic features of the Yangtze River.
  • Table 1. The grading thresholds for several water quality indices.
  • Figure 2. Cyclic structure of the calendar view at weekly precision.
  • Figure 3. The spatial change of water quality in the Yangtze River basin. (The water quality data of the Yangtze River during 2006–2015 are represented using the proposed calendar method. According to the rendering rule defined in Table 2, the colors in calendar view indicate the major water pollutants and the corresponding water quality levels qualitatively.
  • Figure 4. The result of hierarchical cluster analysis on spatial pattern of water quality in the Yangtze River. (a) Dendrogram for the WQL frequency of water quality monitoring sections in the Yangtze River. (b) Cluster viewer for the water quality level of monitoring section belongs to Group 1. (c) Cluster viewer for the water quality level of monitoring section belongs to Group 2. (d) Cluster viewer for the water quality level of monitoring section belongs to Group 3.
  • Figure 5. The temporal change of water quality in several sections of the Yangtze River. (a) Danjiang Mouth; (b) Nanjingguan; (c) the First Minjiang Bridge; (d) Linshan; (e) Xin Port; (f) Jishui Port; (g) Hexi Water Plant; (h) Hama Stone.
  • Figure 6. The annual pattern of major pollutant change in a few sections of the Yangtze River. (a) the First Minjiang Bridge; (b) Linshan; (c) Xin Port; (d) Jishui Port; (e) Hexi Water Plant; (f) Hama Stone.

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APA

Huang, L., Zhong, M., Gan, Q., & Liu, Y. (2017). A novel calendar-based method for visualizing water quality change: The case of the Yangtze River 2006-2015. Water (Switzerland), 9(9). https://doi.org/10.3390/w9090708

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