Analyzing the Hydrologic Variability of Kallada River, India Using Continuous Wavelet Transform and Fractal Theory
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Publisher
Springer Science and Business Media LLC
Link
http://link.springer.com/article/10.1007/s41101-018-0060-8/fulltext.html
Reference49 articles.
1. Zhang Q, Cu C-Y, Chen YD, Yu Z (2008) Multifractal detrended fluctuation analysis of streamflow series of the Yangtze river basin, China. Hydrol Process 22:4997–5003
2. Zhang Q, Chen G, Su B, Disse M, Jiang T, Xu C-Y (2008) Periodicity of sediment load and runoff in the Yangtze river basin and possible impacts of climatic changes and human activities. Hydrol Sci J 53(2):457–464
3. Zhang Q, Xu C-Y, Yu ZG, Liu C-L, Chen Y (2009) Multifractal analysis of streamflow records of the East River basin (Pearl River), China. Physica A 388:927–934
4. Yu Z, Zhang Q, Singh VP (2014) Fractal-based evaluation of the effect of water reservoirs on hydrological processes: the dams in the Yangtze River as a case study. Stoch Env Res Risk A 28:263–279
5. Li E, Mu X, Zhao G, Gao P (2015) Multifractal detrended fluctuation analysis of streamflow in the Yellow River basin, China. Water 7:1670–1686
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