Comparing Spatial Interpolation Schemes for Constructing a Flow Duration Curve in an Ungauged Basin
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- 作者:Muhammad Waseem ; Ji-yae Shin ; Tae-Woong Kim
- 关键词:Flow duration curve ; Interpolation schemes ; Regionalization ; Ungauged basin
- 刊名:Water Resources Management
- 出版年:2015
- 出版时间:May 2015
- 年:2015
- 卷:29
- 期:7
- 页码:2249-2265
- 全文大小:1,341 KB
- 参考文献:Abida H, Ellouze M (2006) Hydrological delineation of homogeneous regions in Tunisia. Water Resour Manag 20:961鈥?77. doi:10.鈥?007/鈥媠11269-006-9017-3 View Article
Bloeschl G, Sivapalan M, Wagener T et al (2013) Runoff prediction in ungauged basins-synthesis across processes, places and scales. Cambridge Univ Press, Cambridge
Castellarin A, Galeati G, Brandimarte L, Montanari A, Brath A (2004) Regional flow-duration curves: reliability for ungauged basins. Adv Water Resour 27(10):953鈥?65. doi:10.鈥?016/鈥媕.鈥媋dvwatres.鈥?004.鈥?8.鈥?05 View Article
Castiglioni S, Castellarin A, Montanari A, Skoien JO, Laaha G, Bl枚schl G (2011) Smooth regional estimation of low flow indicies: physiographical space based interpolation and top kringing. Hydrol Earth Syst Sci 15:715鈥?27. doi:10.鈥?194/鈥媓ess-15-715-2011 View Article
Chen FW, Liu CW (2012) Estimation of the spatial rainfall distribution using inverse distance weighting (IDW) in the middle of Taiwan. Paddy Water Environ 10:209鈥?22. doi:10.鈥?007/鈥媠10333-012-0319-1 View Article
Chokmani K, Ouarda TBMJ (2004) Physiographical space-based kriging for regional flood frequency estimation at ungauged sites. Water Resour Res 40, W12514. doi:10.鈥?029/鈥?003WR002983 View Article
Di Prinzio M, Castellarin A, Toth E (2011) Data-driven catchment classification: application to the PUB problem. Hydrol Earth Syst Sci 15:1921鈥?935. doi:10.鈥?194/鈥媓ess-15-1921-2011 View Article
Ellouze-Gargouri E, Bargaoui Z (2012) Runoff estimation for an ungauged catchment using Geomorphological Instantaneous Unit Hydrograph (GIUH) and copulas. Water Resour Manag 26:1615鈥?638. doi:10.鈥?007/鈥媠11269-012-9975-6 View Article
Ganora D, Claps P, Laio F, Viglione A (2009) An approach to estimate non-parametric flow duration curves in ungauged basins. Water Resour Res 45(10), W10418. doi:10.鈥?029/鈥?008WR007472 View Article
Goyal M, Gupta V (2014) Identification of homogeneous rainfall regimes in Northeast Region of India using fuzzy cluster analysis. Water Resour Manag 28:4491鈥?511. doi:10.鈥?007/鈥媠11269-014-0699-7 View Article
He Z, Wen X, Liu H, Du J (2014) A comparative study of artificial neural network, adaptive neuro fuzzy inference system and support vector machine for forecasting river flow in the semiarid mountain region. J Hydrol 509:379鈥?86View Article
Kurtzman D, Navon S, Morin E (2009) Improving interpolation of daily precipitation for hydrologic modeling: spatial patterns of preferred interpolators. Hydrol Process 23:3281鈥?291View Article
Ley R, Casper MC, Hellebrand H, Merz R (2011) Catchment classification by runoff behavior with self-organizing maps (SOM). Hydrol Earth Syst Sci 15:2947鈥?962. doi:10.鈥?194/鈥媓essd-8-3047-2011 View Article
Li M, Shao Q, Zhang L, Chiew FHS (2010) A new regionalization approach and its application to predict flow duration curve in ungauged basins. J Hydrol 389(1鈥?):137鈥?45. doi:10.鈥?016/鈥媕.鈥媕hydrol.鈥?010.鈥?5.鈥?39 View Article
Lu GY, Wong DW (2008) An adaptive inverse distance weighting spatial interpolation technique. Comput Geosci 34(9):1044鈥?055. doi:10.鈥?016/鈥媕.鈥媍ageo.鈥?007.鈥?7.鈥?10 View Article
Mkhandi SH, Kachroo RK (2000) Flood frequency analysis of Southern Africa: delineation of homogeneous regions. Research Report. Water Resour Eng Program. University of Dar es Salaam, Tanzania
Opere AO, Mkhandi WSP (2009) Homogeneity testing for peak discharge in catchments in the equatorial Nile basins. J Met Relat Sci 3(3):13鈥?0
Patil S, Stieglitz M (2012) Controls on hydrologic similarity: role of nearby gauged catchments for prediction at an ungauged catchment. Hydrol Earth Syst Sci 16:551鈥?62View Article
Pugliese A, Castellarin A, Brath A (2013) Geostatistical prediction of flow duration curve. Hydrol Earth Syst Sci 10:13053鈥?3091. doi:10.鈥?194/鈥媓essd-10-13053-2013 View Article
Sauquet E, Catalogne C (2011) Comparison of catchment grouping methods for flow duration curve estimation at ungauged sites in France. Hydrol Earth Syst Sci 15:2421鈥?435. doi:10.鈥?194/鈥媓ess-15-2421-2011 View Article
Seckin N, Guven A (2012) Estimation of peak flood discharges at ungauged sites across Turkey. Water Resour Manag 26:2569鈥?581. doi:10.鈥?007/鈥媠11269-012-0033-1 View Article
Shu C, Ouarda TBMJ (2012) Improved methods for daily streamflow estimates at ungauged sites. Water Resour Res 48, W02523. doi:10.鈥?029/鈥?011WR011501 View Article
Sine A, Ayalew S (2004) Identification and delineation of hydrological homogeneous regions-the case study of Blue Nile River Basin. Proceedings of Lake Abaya Research Symposium (2004)
Sk酶ien JO, Merz R, Bl枚schl G (2006) Top-kriging鈥攇eostatistics on stream networks. Hydrol Earth Syst Sci 10(2):277鈥?87. doi:10.鈥?194/鈥媓ess-10-277-2006 View Article
Zhang Y, Vaze J, Chiew FHS, Teng J, Li M (2014) Predicting hydrological signatures in ungauged catchments using spatial interpolation, index model, and rainfall鈥搑unoff modelling. J Hydrol 517:936鈥?48. doi:10.鈥?016/鈥媕.鈥媕hydrol.鈥?014.鈥?6.鈥?32 View Article - 作者单位:Muhammad Waseem (1)
Ji-yae Shin (1)
Tae-Woong Kim (2)
1. Department of Civil and Environmental Engineering, Hanyang University, Seoul, 133-791, Republic of Korea
2. Department of Civil and Environmental Engineering, Hanyang University, Ansan, 426-791, Republic of Korea - 刊物类别:Earth and Environmental Science
- 刊物主题:Earth sciences
Hydrogeology
Geotechnical Engineering
Meteorology and Climatology
Civil Engineering
Environment - 出版者:Springer Netherlands
- ISSN:1573-1650
文摘
This study aims to investigate the applicability of proposed ensemble interpolation technique based on both geographical and physiographical spaces, for prediction of flow duration curve (FDC) at ungauged site. The interpolation schemes were applied for selected 15 different percentiles of the FDC. Firstly, different FDC parametric models were tested to approximate FDCs at gauged sites. It was found that the suggested reliable ensemble averaging (REA) model outperformed the traditional deterministic models (linear, exponential, and logarithmic models). The REA model approximated the FDC with high consistency and small deviations from the observed percentiles. The results obtained by the REA model were further utilized to define homogeneity in the selected region. Secondly, based on the inverse distance weighting (IDW) concept, both geographical and physiographical spaces estimations were ensemble (using proposed estimated true value (ETV) method) to predict the hydrological information (FDC) at ungauged sites. It was noted that ETV based interpolation provided more efficient, reliable and consistent efficiency. Finally, to identify physical conditions that could favor the high predictability of the proposed methodology, we investigated the relationship between Nash-Sutcliffe efficiency (NASH) and catchments attributes. The results indicated that significance correlations were observed between NASH and catchments attributes even though no clear tends exist.