Multifractal Analysis of River Networks in an Urban Catchment on the Taihu Plain, China

Xiang, Jie; Xu, Youpeng; Yuan, Jia; Wang, Qiang; Wang, Jie; Deng, Xiaojun

doi:10.3390/w11112283

Cited by 12 publications

(12 citation statements)

References 62 publications

(80 reference statements)

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“…Nevertheless, the evolution of cities in the real world, as reflected in multifractal parameters, may exhibit local fluctuations. While many studies focus on seeking macroscopic patterns of urban evolution through spectrum comparison [ 19 , 30 , 31 , 32 , 33 , 34 , 35 ] or trend fitting [ 36 ], few studies delve into characterizing spatio-temporal variations of urban evolution at a microlevel.…”

Section: Introductionmentioning

confidence: 99%

Characterizing the Spatio-Temporal Variations of Urban Growth with Multifractal Spectra

Chen

2023

Entropy

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Urban morphology exhibits fractal characteristics, which can be described by multifractal scaling. Multifractal parameters under positive moment orders primarily capture information about central areas characterized by relatively stable growth, while those under negative moment orders mainly reflect information about marginal areas that experience more active growth. However, effectively utilizing multifractal spectra to uncover the spatio-temporal variations of urban growth remains a challenge. To addresses this issue, this paper proposes a multifractal measurement by combining theoretical principles and empirical analysis. To capture the difference between growth stability in central areas and growth activity in marginal areas, an index based on generalized correlation dimension Dq is defined. This index takes the growth rate of Dq at extreme negative moment order as the numerator and that at extreme positive moment order as the denominator. During the stable stage of urban growth, the index demonstrates a consistent pattern over time, while during the active stage, the index may exhibit abnormal fluctuations or even jumps. This indicates that the index can reveal spatio-temporal information about urban evolution that cannot be directly observed through multifractal spectra alone. By integrating this index with multifractal spectra, we can more comprehensively characterize the evolutionary characteristics of urban spatial structure.

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Section: Introductionmentioning

confidence: 99%

Characterizing the Spatio-Temporal Variations of Urban Growth with Multifractal Spectra

Chen

2023

Entropy

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“…In recent decades, numerous studies have been carried out on PRNRs, such as studies of the changes in the width, length, and number of single river channels (Bledsoe & Watson, 2001; Chin, 2006; Keen‐Zebert, 2007; Nanson & Huang, 2016; Xiang et al, 2019). Generally, the main streams of high order have widened because of the increase in the runoff volume caused by river channel dredging and impervious surface increases, while tributary streams of low‐order have narrowed gradually or even disappeared because of river channel sedimentation and urban occupation (Deng et al, 2015; Elmore & Kaushal, 2008; Galster, Pazzaglia, & Germanoski, 2008).…”

Section: Introductionmentioning

confidence: 99%

Spatiotemporal change in the river network in rapidly urbanized plain regions of the Yangtze River Delta in China

Yang

et al. 2022

River Research & Apps

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Rapid urbanization has brought numerous aquatic problems to plain river network regions. We selected three categories (five indicators) of characteristics to describe the physical characteristics of river network systems, including quantitative, structural, and complex characteristics. Using the grid method and hierarchical clustering analysis (HCA), the spatiotemporal change pattern of one plain river network of the Yangtze River Delta was addressed from the 1960s to 2014 based on topographic maps. The results showed that the river density (DR), water surface ratio (WP), and box dimension (D0) in over 82% of the area decreased. The spatial pattern of the water system is divided into four categories by HCA: urban areas, river network areas, mainstream areas, and lake areas. The categories of river network areas and lake areas decreased, while the categories of urban areas and mainstream areas increased from the 1960s to 2014 because of urbanization. There are approximately 12.8% grid cells that change from river network areas to mainstream areas, which is the most important change due to the reduction of tributaries and increase of main streams. These results indicate that river network distribution patterns have the tendency to simplify and remain mainstream. Our study suggests that water systems and river networks should be protected, which would provide support for water resource management in highly urbanized plain regions.

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“…The plain river network in eastern China is characterized by flat terrain and shallow groundwater. Floods are prone to occur during the rainy season, affecting the safety of people's lives and property [12]. Mastering the mechanism of soil water movement in the unsaturated zone in this region is the key to studying the hydrological cycle characteristics and runoff generation mechanisms, which is of great significance for regional flood control forecasting and risk management [13,14].…”

Section: Introductionmentioning

confidence: 99%

The Application and Improvement of Soil–Water Characteristic Curves through In Situ Monitoring Data in the Plains

Zhang

Chen

et al. 2022

Water

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In order to study the soil–water characteristic curve and soil–water movement in the unsaturated zone of the humid plain area and investigate its influence on the regional water cycle process, this study conducted a long series of hydrometeorological data monitoring on the whole process of precipitation, evaporation, soil water content, pore water pressure and depth of groundwater level at the Jintan field hydrological test in the plain area of the Taihu Basin, China. Based on the collected data, the soil water dynamic at different depths was analyzed, and the results showed that the soil water fluctuated most frequently and drastically at a soil horizon depth of 0–40 cm, with an obvious soil moisture wetting and drying cycle. The van Genuchten model (VG model) was used to describe the soil–water characteristic curve, and the parameters of the VG model were obtained by numerical inversion of field monitoring data using numerical code (HYDRUS-1D). The obtained parameters were used to simulate soil water movement in each soil horizon for six precipitation events and were compared with the simulation results of laboratory data. The study shows that the soil water simulation based on field data is better, which verifies the accuracy and reliability of the VG model obtained from field observation and provides a reliable theoretical basis for soil water movement and the calculation of runoff yield in the plain area of the Taihu Basin.

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Multifractal Analysis of River Networks in an Urban Catchment on the Taihu Plain, China

Cited by 12 publications

References 62 publications

Characterizing the Spatio-Temporal Variations of Urban Growth with Multifractal Spectra

Characterizing the Spatio-Temporal Variations of Urban Growth with Multifractal Spectra

Spatiotemporal change in the river network in rapidly urbanized plain regions of the Yangtze River Delta in China

The Application and Improvement of Soil–Water Characteristic Curves through In Situ Monitoring Data in the Plains

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