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    Publisher: Academic Journals Inc., USA
   
  Research Journal of Environmental Sciences is an international peer-reviewed scientific journal dedicated to publish cutting edge research findings in the field of environmental sciences and environmental engineering. Scope of the journal includes: Environmental chemistry, environmental biology (like greenhouse gas abatement and climate change, environmental resilience, environmental microbiology and biotechnology, industrial environment and technology), ecology, geo-sciences, environmental physics and information sciences, basic and applied research on atmospheric, terrestrial and aquatic environments, pollution control and abatement technology, conservation of natural resources, environmental health and toxicology.

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Adrian, D.D., V.P. Singh and Z.Q. Deng, 2002. Diffusion-based semi-infinite fourier probability distribution. J. Hydrol. Eng., 7: 154-167.
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Afzalimehr, H. and V.P. Singh, 2009. Influence of meandering on the estimation of velocity and shear velocity in cobble-bed channels. J. Hydrol. Eng., 14: 1126-1135.
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Afzalimehr, H., E.F. Najfabadi and V.P. Singh, 2010. Effect of vegetation on banks on distributions of velocity and Reynolds stress under accelerating flow. J. Hydrol. Eng., 15: 708-713.
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Afzalimehr, H., M. Abdolhosseini and V.P. Singh, 2010. Hydraulic geometry relations for stable channel design. J. Hydrol. Eng., 15: 859-864.
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Afzalimehr, H., M. Abdolhosseini and V.P. Singh, 2012. Closure to hydraulic geometry relations for stable channel design, by H. Afzalimehr, M. Abdolhosseini,. and V.P. Singh. J. Hydraulic Eng., 17: 357-358.
Afzalimehr, H., V.P. Singh and M. Abdolhosseini, 2009. Effect of nonuniformity of flow on hydraulic geometry relations. J. Hydrol. Eng., 14: 1028-1034.
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Afzalmehr, H., V.P. Singh and E.F. Najafabadi, 2010. Determination of form friction factor. J. Hydrol. Eng., 15: 237-243.
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Agarwal, A., S.K. Mishra, R.P. Pandey and V.P. Singh, 2008. Training of Artificial Neural Network Models. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 145-188.
Aggarwal, S.K., A. Goel and V.P. Singh, 2012. A stage and discharge forecasting by SVM and techniques. Water Resour. Manage., 26: 3705-3724.
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Azareh, S., H. Afzalimeher, M. Pourhosein and V.P. Singh, 2014. Contribution of form friction to total friction. Int. J. Hydraulic Eng., 3: 77-84.
Barbetta, S., T. Moramarco, M. Franchini, F. Melone, L. Brocca and V.P. Singh, 2011. Case study: Improving real-time stage forecasting muskingum model by ıncorporating the rating curve model. J. Hydrol. Eng., 16: 540-557.
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Bobba, A.G. and V.P. Singh, 2003. Simulation of soil moisture variability due to climate change in Northeast Pond river Watershed, Newfoundland, Canada. Water Eng. Res., 4: 31-42.
Bobba, A.G. and V.P. Singh, 2005. Water Pollution and its Numerical Modeling in Coastal Watersheds. In: Advances in Water Science Methodologies, Aswathanarayana, U. (Ed.). A.A. Balkema Publishers, New York, pp: 201-219.
Bobba, A.G. and V.P. Singh, 2009. An eco-watershed management approach to inter-connect rivers in India. Hydrol. J., 32: 96-124.
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Bobba, A.G., P.A. Chambers, V.P. Singh and B.G. Krishnappan, 2008. Surface-subsurface water interactions in the flood plain. Hydrol. J., 31: 107-119.
Bondyrev, I.V., Z.K. Tatashidz, V.P. Singh, E.D. Tsereteli and A. Yilmaz, 2004. Impediments to the sustainable development of the Caucasus-Pontdes region. New Global Dev., 20: 33-48.
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Brocca, L., F. Melone, T. Moramarco and V.P. Singh, 2009. Assimilation of observed soil moisture data in storm rainfall-runoff modeling. J. Hydrol. Eng., 14: 153-165.
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Cantalice, J.R.B., M.C. Filho, B.D. Stosic, V.C. Piscoya, S.M. Guerra and V.P. Singh, 2013. Relationship between bedload and suspended sediment in the sand-bed Exu River, in the semi-arid region of Brazil. Hydrol. Sci. J., 58: 1789-1802.
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Cantalice, J.R.B., R.O. Melo, Y.J.A.B. Silva, M.C. Filho and A.M. Araujo et al., 2015. Hydraulic roughness due to submerged, emergent and flexible natural vegetation in a semiarid alluvial channel. J. Arid Environ., 114: 1-7.
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Chen, H., S. Guo, C.Y. Xu and V.P. Singh, 2007. Historical temporal trends of hydro-climatic variables and runoff response to climate variability and their relevance in water resource management in the Hanjiang basin. J. Hydrol., 344: 171-184.
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Chen, L., L. Ye, V.P. Singh, J. Zhou and S. Guo, 2014. Determination of input for artificial neural networks for flood forecasting using the copula entropy method. J. Hydrol. Eng., Vol. 19. 10.1061/(ASCE)HE.1943-5584.0000932.
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Chen, L., V.P. Singh and S. Guo, 2012. Measure of correlation between river flows using the copula-entropy method. J. Hydrol. Eng., 18: 1591-1606.
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Chen, L., V.P. Singh, S. Guo, A.K. Mishra and J. Guo, 2013. Drought analysis using copulas. J. Hydrol. Eng., 18: 797-808.
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Chen, L., V.P. Singh, S. Guo, B. Fang and P. Liu, 2013. A new method for identification of flood seasonality using directionaal statistics. Hydrol. Sci. J., 58: 28-40.
Chen, L., V.P. Singh, S. Guo, Z. Hao and T. Li, 2012. Flood coincidence risk analysis using multivariate copula functions. J. Hydrol. Eng., 17: 742-755.
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Chen, L., Y. Zhang, J. Zhou, V.P. Singh, S. Guo and J. Zhang, 2015. Real-time correction method combined with combination flood forecasting technique for improving the accurcy of flood forecasting. J. Hydrol., 521: 157-169.
Chen, Y.D., Q. Zhang, M. Xiao and V.P. Singh, 2013. Evaluation of risk of hydrological droughts by the trivariate plackett copula in the east river basin (China). Nat. Hazards, 68: 529-547.
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Chen, Y.D., Q. Zhang, M. Xiao, V.P. Singh, Y. Leung and L. Jiang, 2014. Precipitation extremes in the Yangtze river basin, China: Regional frequency and spatial-temporal patterns. Theor. Applied Climatol., 116: 447-461.
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Chowdhary, H. and V.P. Singh, 2009. On watershed management. J. Crop Improv., 23: 158-173.
Chowdhary, H. and V.P. Singh, 2010. Reducing uncertainty in estimates of frequency distribution parameters using composite likelihood approach and copula-based bivariate distributions. Water Resour. Res., Vol. 46. 10.1029/2009WR008490.
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Chowdhary, H., L.A. Escobar and V.P. Singh, 2011. Identification of suitable copulas for bivariate frequency analysis of flood peak and flood volume data. Hydrol. Res., 42: 193-216.
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Chu, J.T., J. Xia, C.Y. Xu and V.P. Singh, 2010. Statistical downscaling of daily mean temperature, pan evaporation and precipitation for climate change scenarios in Haihe river, China. Theor. Applied Climatol., 99: 149-161.
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Cimoli, L., L. Cozzolino, R.D. Morte, D. Pianese and V.P. Singh, 2015. A new frequency domain analytical solution of a cascade of diffusive channels for flood routing. Water Resour. Res., 51: 2393-2411.
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Corato, G., F. Melone, T. Moramarco and V.P. Singh, 2014. Uncertainty analysis of flow velocity estimation by a simplified entropy model. Hydrol. Process., 28: 581-590.
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Cui, H. and V.P. Singh, 2012. On the cumulative distribution function for entropy-based hydrologic modeling. Trans. ASABE, 55: 429-438.
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Cui, H. and V.P. Singh, 2013. One-dimensional velocity distribution in open channels using tsallis entropy. J. Hydrol. Eng., 19: 290-298.
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Cui, H. and V.P. Singh, 2013. Two-dimensional velocity distribution in open channels using the tsallis entropy. J. Hydrol. Eng., 18: 331-339.
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Cui, H. and V.P. Singh, 2014. Computation of suspended sediment discharge in open channels using tsallis entropy. J. Hydrol. Eng., 19: 18-25.
Cui, H. and V.P. Singh, 2014. Suspended sediment concentration in open channels using tsallis entropy. J. Hydrol. Eng., 19: 966-977.
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Cui, H. and V.P. Singh, 2015. Configurational entropy theory for streamflow forecasting. J. Hydrol., 521: 1-17.
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Da Silva, V.D.P.R., R.A. Silva, E.P. Cavalcanti, C.C. Braga, P.V. de Azevedo, V.P. Singh and E.R.R. Pereira, 2010. Trends in solar radiation in NCEP/NCAR database and measurements in northeastern Brazil. Solar Energy, 84: 1852-1862.
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Da Silva, V.P.R., C.J.R. Borges, C.H.A. Farias, V.P. Singh, W.G. Albuquerque and B.B. da Silva, 2012. Water requirements and single and dual crop coefficients of sugarcane grown in a tropical region, Brazil. Agric. Sci., 3: 274-286.
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Da Silva, V.P.R., R.S.R. Almeida, V.A. Dantas, A.C.L. da Costa, V.P. Singh and G.F.B. das Chagas, 2012. Sensible and latent heat storage fluxes within the canopy air-space in the Amazon rainforest. For. Res., Vol. 1. .
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Da Silva, V.P.R., R.S.R. Almeida, V.P. Singh, G.F.B. das Chagas, V.A. Dantas and A.C.L. da Costa, 2012. Aboveground biomass dynamics in the Amazonian rainforest under influence of reduction in rainfall. For. Res., Vol. 1. .
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Datta, B. and V.P. Singh, 2004. Hydrology... In: The Brahmaputra Basin Water Resources, Singh, V.P., N. Sharma and C.S.P. Ojha (Ed.). Water Resources Publications, Littleton, Colorado, pp: 139-195.
De Lima, J.L.M.P. and V.P. Singh, 2002. The influence of the pattern of moving rainstorms on overland flow. Adv. Water Resour., 25: 817-828.
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De Lima, J.L.M.P. and V.P. Singh, 2003. Laboratory experiments on the influence of storm movement on overland flow. Phys. Chem. Earth Parts A/B/C, 28: 277-282.
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De Lima, J.L.M.P., C.C.S. Souza and V.P. Singh, 2009. Granulometric characterization of sediments transported by surface runoff generated by moving storms. Nonlinear Process. Geophys., 15: 999-1011.
De Lima, J.L.M.P., J.L.M.P. de Lima and V.P. Singh, 2005. The importance of the direction, speed, intensity and length of moving storms on water erosion. Catena, 36: 164-176.
De Lima, J.L.M.P., P. Tavares, V.P. Singh and M.I.P. de Lima, 2009. Investigating the nonlinear response of soil loss to storm direction using a circular soil flume. Geoderma, 152: 9-15.
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De Lima, J.L.M.P., P.A. Dinis, C.S. Souza, M.I.P. de Lima and P.P. Cunha et al., 2011. Patterns of grain-size temporal variation of sediment transported by overland flow associated with moving storms: Interpreting soil flume experiments. Nat. Hazards Earth Syst. Sci., 11: 2605-2615.
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De Lima, J.L.M.P., P.J.J.F. Torfs and V.P. Singh, 2002. A mathematical model for evaluating the effect of wind on downward-spraying rainfall simulators. Catena, 46: 221-241.
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De Lima, J.L.M.P., V.P. Singh and M.I.P. de Lima, 2003. The influence of storm movement on water erosion: Storm direction and velocity effects. Catena, 52: 39-52.
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Dehsorkhi, E.N., H. Afzalmehr and V.P. Singh, 2011. Effect of bed forms and vegetated banks on velocity distributions and turbulent flow structure. J. Hydrol. Eng., 16: 495-507.
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Deng, Z.Q. and V.P. Singh, 2002. Optimum channel pattern for environmentally sound training and management of alluvial rivers. Ecol. Model., 154: 61-74.
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Deng, Z.Q., J.L.M.P. de Lima and V.P. Singh, 2005. Fractional kinetic model for first flush of stormwater pollutants. J. Environ. Eng., 131: 232-241.
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Deng, Z.Q., J.L.M.P. de Lima and V.P. Singh, 2005. Transport rate-based model for overland flow and solute transport: Parameter estimation and process simulation. J. Hydrol., 315: 220-235.
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Deng, Z.Q., J.L.M.P. de Lima, M.I.P. de Lima and V.P. Singh, 2006. A fractional dispersion model for overland solute transport. Water Resour. Res., Vol. 42. 10.1029/2005WR004146.
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Deng, Z.Q., L. Bengtsson and V.P. Singh, 2006. Scaling dispersion model for passive scalars in natural streams. Environ. Fluid Mech., 6: 451-475.
Deng, Z.Q., V.P. Singh and L. Bengtsson, 2001. Longitudinal dispersion coefficient in straight rivers. J. Hydraulic Eng., 127: 919-927.
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Deng, Z.Q., V.P. Singh and L. Bengtsson, 2004. Numerical solution of fractional advection-dispersion equation. J. Hydraulic Eng., 130: 422-431.
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Deng, Z.Q., V.P. Singh, L. Bengtsson and D.D. Adrian, 2002. Longitudinal dispersion coefficient in single-channel streams. J. Hydraulic Eng., 128: 901-916.
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Dinpashoh, Y., D. Jhajharia, A. Fakheri-Fard, V.P. Singh and E. Kahya, 2011. Trends in reference crop evapotranspiration over Iran. J. Hydrol., 399: 422-433.
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Djebou, D.C.S. and V.P. Singh, 2015. Retrieving vegetation growth patterns from soil moisture, precipitation and temperature using maximum entropy. Ecol. Modell., 309: 10-21.
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Djebou, D.C.S., V.P. Singh and O.W. Frauenfeld, 2014. Analysis of watershed topography effects on summer precipitation variability in the southwestern United States. J. Hydrol., 511: 838-849.
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Djebou, D.C.S., V.P. Singh and O.W. Frauenfeld, 2015. Vegetation response to precipitation across the aridity gradient of the southwestern United States. J. Arid Environ., 115: 35-43.
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Dogan, S., A. Berktay and V.P. Singh, 2012. Comparison of multi-monthly rainfall-based drought severity indices, with application to semi-arid Konya closed basin, Turkey. J. Hydrol., 470-471: 255-268.
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Du, J., S. Xie, Y. Xu, C.Y. Xu and V.P. Singh, 2007. Development and testing of a simple physically-based distributed rainfall-runoff model for storm runoff simulation in humid forested basins. J. Hydrol., 336: 334-346.
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El Tahir, M.E.H., W. Wang, C.Y. Xu, Z. Youjing and V.P. Singh, 2012. Comparison of methods for estimation of regional actual evapotranspiration in data scarce regions: Blue Nile region, Eastern Sudan. J. Hydrol. Eng., 17: 578-589.
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Fan, P. and V.P. Singh, 2008. Limiting states of internal wave rays. J. Geophys. Res., Vol. 113. 10.1029/2007JC004596.
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Fan, P. and V.P. Singh, 2008. Mathematical Modeling for Flow Routing in Open Channels. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 943-982.
Fan, P. and V.P. Singh, 2010. Transient wave method for internal tide generation. Dynamics Atmos. Oceans, 49: 188-205.
Fan, P., J.C. Li, Q.Q. Liu and V.P. Singh, 2008. Case study: Influence of morphological changes on flooding in Jingjiang river. J. Hydraulic Eng., 134: 1757-1766.
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Gao, G., C.Y. Xu, D. Chen and V.P. Singh, 2012. Spatial and temporal characteristics of actual evapotranspiration over Haihe River basin in China. Stochastic Environ. Res. Risk Assess., 26: 655-669.
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Ghorbani, M.A., H. Ruskeep, V.P. Singh and B. Sivakumar, 2010. Flood frequency analysis using Mathematica. Turk. J. Eng. Environ. Sci., 34: 171-188.
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Gupta, S.K. and V.P. Singh, 2012. Discussion of enhanced predictions for peak outflow from breached embankment dams. J. Hydrol. Eng., 17: 463-466.
Gupta, S.K. and V.P. Singh, 2012. Discussion of iterative formulas and estimation formulas for computing normal depth of horseshoe cross-section tunnel. J. Irrig. Drainage Eng., 138: 786-787.
Gupta, S.K. and V.P. Singh, 2012. Discussion of most hydraulically efficient riprap-lined drainage channels. J. Irrig. Drainage Eng., 138: 690-694.
Gupta, S.K. and V.P. Singh, 2013. Discussion of experimental studies on flow over Labyrith weir. J. Irrig. Drainage Eng., 139: 1048-1051.
Gupta, S.K. and V.P. Singh, 2013. Discussion of experimental studies on flow over labyrinth weir. J. Irrig. Drainage Eng., 139: 1048-1051.
Gupta, S.K. and V.P. Singh, 2013. Discussion of montana flume flow corrections under submerged flow. J. Irrig. Drainage Eng., 139: 595-597.
Gupta, S.K. and V.P. Singh, 2013. Discussion of separation zone in flow past a spur dyke on rigid bed meandering channel. J. Hydraulic Eng., 139: 1112-1114.
Gupta, S.K. and V.P. Singh, 2014. Discussion of detention storage over 2D laboratory watersheds at concentration time. J. Hydrol. Eng., 19: 659-661.
Gupta, S.K. and V.P. Singh, 2014. Discussion of storm centering approach for flood predictions from large watersheds. J. Hydrol. Eng., 19: 270-271.
Gupta, S.K., V.P. Singh and S.K. Shukla, 2012. Discussion of iterative formulas and estimation formulas for computing normal depth of horseshoe cross-section tunnel. J. Irrig. Drainage Eng., 138: 786-787.
Gupta, S.K., V.P. Singh and U. Mishra, 2012. Discussion of scour due to crossing jets at fixed vertical angle by S. Pagliara and M. Palermo. J. Irrig. Drainage Eng., 138: 386-390.
Gupta, S.K., V.P. Singh and V.B. Mishra, 2012. Discussion of design and testing of a flow measurement system for an urban sewage drain. J. Irrig. Drainage Eng., 138: 558-563.
Gupta, S.K., V.P. Singh and V.B. Mishra, 2012. Discussion of temporal development of scour holes around submerged stream deflectors by K. Rodrigue-Gervais and M.F. Lapointe. J. Hydraulic Eng., 138: 308-310.
Hao, L. and V.P. Singh, 2011. Entropy theory for two-dimensional velocity distribution. J. Hydrol. Eng., 16: 303-315.
Hao, Z. and V.P. Singh, 2009. Entropy-based parameter estimation for extended burr XII distribution. Stochastic Environ. Res. Risk Anal., 23: 1113-1122.
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Hao, Z. and V.P. Singh, 2009. Entropy-based parameter estimation for extended three-parameter burr III distribution for low-flow frequency analysis. Trans. ASABE, 52: 1193-1202.
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Hao, Z. and V.P. Singh, 2011. Single‐site monthly streamflow simulation using entropy theory. Water Resour. Res., Vol. 47. 10.1029/2010WR010208.
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Hao, Z. and V.P. Singh, 2012. Entropy‐copula method for single‐site monthly streamflow simulation. Water Resour. Res., Vol. 48. 10.1029/2011WR011419.
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Hao, Z. and V.P. Singh, 2013. Entropy‐based method for extreme rainfall analysis in Texas. J. Geophys. Res.: Atmos., 118: 263-273.
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Hao, Z. and V.P. Singh, 2013. Entropy-based method for bivariate drought analysis. J. Hydrol. Eng., 18: 780-786.
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Harmancioglu, N.B., and V.P. Singh, 2002. Data Accuracy and Validation. In: Encyclopedia of Life Support Systems, Sydow, A. (Ed.). EOLSS Publishers Co., Ltd., Oxford, UK.
Hassanzadeh, Y., A. Abdi, S. Talatahari and V.P. Singh, 2011. Meta-heuristic algorithms for hydrologic frequency analysis. Water Resour. Manage., 25: 1855-1879.
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Hong, M., R. Zhang, D. Wang, X. Chen, J. Shi and V. Singh, 2014. Retrieval the statistical-dynamical model of western Pacific subtropical high ridge line index and key members of Asian summer monsoon system. Dynamics Atmos. Oceans, 68: 1-19.
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Howari, F.M., M.M. Sherif, V.P. Singh and A.A. Azam, 2008. Climate Change: Causes, Evidence and Impacts on Groundwater Resources. In: Hydrology and Hydraulics, Singh, V.P. (Ed.), Water Resources Publications, Highlands Ranch, Colorado, pp: 451-478.
Howari, F.M., M.M. Sherif, V.P. Singh and M.S. Al-Asam, 2006. Application of GIS and Remote Sensing Techniques in Identification, Assessment and Development of Groundwater Resources. In: Groundwater Resource Evaluation, Augmentation, Contamination, Restoration and Modeling and Management, Thangarajan, M. (Ed.). Capital Publishing Company, New Delhi, pp: 1-25.
Huang, Y.H., V.P. Singh and T.L. Smith, 2009. Mining water from oil and gas production. Louisiana Civil Eng., 17: 11-14.
Ilunga, M. and V.P. Singh, 2015. Measuring spatial variability of land use associated with hydrological impact in urbanised quaternary catchments using entropy. Water SA, 41: 41-53.
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Ilunga, M. and V.P. Singh, 2015. Measuring spatial variability of land use in urbanized quaternary sub-catchements using entropy. Water SA, 41: 1-12.
Imre, E., J. Lorincz, J. Szendefy, P.Q. Trang, L. Nagy, V.P. Singh and S. Fityus, 2012. Case studies and benchmark examples for the use of grading entropy in geotechnics. Entropy, 14: 1079-1102.
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Isik, S. and V.P. Singh, 2008. Hydrologic regionalization of watersheds in Turkey. J. Hydrol. Eng., 13: 824-834.
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Isik, S. and V.P. Singh, 2009. Closure to hydrologic regionalization of watersheds in Turkey. J. Hydrol. Eng., 14: 769-770.
Jain, M.K. and V.P. Singh, 2005. DEM-based modelling of surface runoff using diffusion wave equation. J. Hydrol., 302: 107-126.
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Jain, M.K., S.K. Mishra and V.P. Singh, 2006. Evaluation of AMC-dependent SCS-CN-based models using watershed characteristics. Water Resour. Manage., 20: 531-552.
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Jain, M.K., S.K. Mishra, P.S. Babu, K. Venugopal and V.P. Singh, 2006. Enhanced runoff curve number model incorporating storm duration and a nonlinear Ia-S relation. J. Hydrol. Eng., 11: 631-635.
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Jain, S.K. and V.P. Singh, 2004. What have lightning paths in sky in common with channel networks on earth? EOS, Trans. Am. Geophys. Union, 85: 249, 253-254.
Jain, S.K. and V.P. Singh, 2005. Baseflow.. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey,.
Jain, S.K. and V.P. Singh, 2005. Hydrologic Cycle. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp: 275-283.
Jain, S.K. and V.P. Singh, 2005. Isohyetal Method. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp: 290-292.
Jain, S.K. and V.P. Singh, 2008. Stage-Discharge and Sediment Rating Curves. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 869-898.
Jain, S.K. and V.P. Singh, 2010. Water crisis. J. Comparative Social Welfare, 26: 215-237.
Jain, S.K., V.P. Singh and M.T. van Genuchten, 2004. Analysis of soil water retention data using artificial neural networks. J. Hydrol. Eng., 9: 415-420.
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Jain, S.K., V.P. Singh and P.K. Bhunya, 2006. Development of optimal and physically realizable unit hydrograph. J. Hydrol. Eng., 11: 612-616.
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Jain, S.K., V.P. Singh and P.K. Bhunya, 2008. Development of optimal and physically realizable unit hydrograph-closure. J. Hydrol. Eng., 13: 528-528.
Jha, R. and V.P. Singh, 2008. Analytical water quality model for biochemical oxygen demand simulation in river Gomti of Ganga Basin, India. KSCE J. Civil Eng., 12: 141-147.
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Jha, R. and V.P. Singh, 2008. Evaluation of riverwater quality by entropy. J. Civil Eng., 12: 61-69.
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Jha, R., K.D. Sharma and V.P. Singh, 2005. Hydrological Processes and Measured Pollutant Loads. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp: 222-229.
Jha, R., K.D. Sharma and V.P. Singh, 2008. Critical appraisal of methods for the assessment of environmental flows and their application in two river systems of India. KSCE J. Civil Eng., 12: 213-219.
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Jha, R., V.P. Singh and V. Vatsa, 2008. Analysis of urban development of Haridwar, India, using entropy approach. KSCE J. Civil Eng., 12: 281-288.
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Jha, R., V.P. Singh, C.S.P. Ojha and K.K. Bhatia, 2005. Surface Water Pollution. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp: 444-451.
Jhajharia, D. and V.P. Singh, 2011. Trends in temperature, diurnal temperature range and sunshine duration in Northeast India. Int. J. Climatol., 31: 1353-1367.
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Jhajharia, D., R. Kumar, P.P. Dabral, V.P. Singh, R.R. Choudhary and Y. Dinpashoh, 2014. Reference evapotranspiration under changing climate over the Thar Desert in India. Meteorol. Applic. 10.1002/met.1471.
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Jhajharia, D., S. Chattopadhyay, R.R. Choudhary, V. Dev, V.P. Singh and S. Lal, 2013. Impact of climate change on malaria over a desert site in Rajasthan, India. Int. J. Climatol., 33: 312-322.
Jhajharia, D., V.P. Singh, R. Kumar and R.R. Choudhary, 2015. Searching evidence for the existence of evaporation paradox in arid environments of northwest India. Global NEST J., 17: 3-11.
Direct Link  |  
Jhajharia, D., Y. Dinpashoh, E. Kahya, R.R. Choudhary and V.P. Singh, 2014. Trends in temperature over Godavari river basin in southern Peninsular India. Int. J. Climatol., 34: 1369-1384.
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Jhajharia, D., Y. Dinpashoh, E. Kahya, V.P. Singh and A. Fakheri-Fard, 2012. Trends in reference evapotranspiration in the humid region of northeast India. Hydrol. Process., 26: 421-435.
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Jiang, S., L. Ren, B. Yong, V.P. Singh, X. Yang and F. Yuan, 2011. Quantifying the effects of climate variability and human activities on runoff from the Laohahe basin in northern China using three different methods. Hydrol. Process., 25: 2492-2505.
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Jiang, T., Y.D. Chen, C.Y. Xu, X. Chen, X. Chen and V.P. Singh, 2007. Comparison of hydrological impacts of climate change simulated by six hydrological models in the Dongjiang Basin, South China. J. Hydrol., 336: 316-333.
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Jin, X., C.Y. Xu, Q. Zhang and V.P. Singh, 2010. Parameter and modeling uncertainty simulated by GLUE and a formal Bayesian method for a conceptual hydrological model. J. Hydrol., 383: 147-155.
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Kawachi, T., T. Maruyama and V.P. Singh, 2001. Rainfall entropy for delineation of water resources zones in Japan. J. Hydrol., 246: 36-44.
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Khedun, C.P. and V.P. Singh, 2014. Climate change, water and health: A review of regional challenges. Water Qual. Exposure Health, 6: 7-17.
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Khedun, C.P., A.K. Mishra, J.D. Bolten, H.K. Beaudoing, R.A. Kaiser, J.R. Giardino and V.P. Singh, 2012. Understanding changes in water availability in the Rio Grande/Rio Bravo del Norte basin under the influence of large-scale circulation indices using the Noah land surface model. J. Geophys. Res., Vol. 117. 10.1029/2011JD016590.
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Khedun, C.P., A.K. Mishra, V.P. Singh and J.R. Giardino, 2014. A copula-based precipitation forecasting model: Investigating the interdecadal modulation of ENSO's impacts on monthly precipitation. Water Resour. Res., 50: 580-600.
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Khedun, C.P., H. Chowdhary, A.K. Mishra, J.R. Giardino and V.P. Singh, 2013. Water deficit duration and severity analysis based on runoff derived from noah land surface model. J. Hydrol. Eng., 18: 817-833.
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Kim, D.G., J.W. Kwak, S.J. Kim, H.S. Kim, T.J. Ahn and V.P. Singh, 2010. Wetland construction: Flood control and water balance analysis. Environ. Eng. Res., 15: 197-205.
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Kim, S. and V.P. Singh, 2013. Flood forecasting using neural computing techniques and conceptual class segregation. J. Am. Water Resour. Assoc., 49: 1421-1435.
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Kim, S. and V.P. Singh, 2014. Modeling daily soil temperature using data-driven models and spatial distribution. Theor. Applied Climatol., 118: 465-479.
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Kim, S., J. Shiri, O. Kisi and V.P. Singh, 2013. Estimating daily pan evaporation using different data-driven methods and lag-time patterns. Water Resour. Manage., 27: 2267-2286.
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Kim, S., J. Shiri, V.P. Singh, O. Kisi and G. Landeras, 2014. Predicting daily pan evaporation by soft computing models with limited climatic data. Hydrol. Sci. J. 10.1080/02626667.2014.945937.
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Kim, S., V.P. Singh and Y. Seo, 2014. Evaluation of pan evaporation modeling with two different neural networks and weather station data. Theor. Applied Climatol., 117: 1-13.
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Kim, S., V.P. Singh, C.J. Lee and Y. Seo, 2014. Modeling the physical dynamics of daily dew point temperature using soft computing techniques. KSCE J. Civil Eng. 10.1007/s12205-014-1197-4.
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Kim, S., V.P. Singh, Y. Seo and H.S. Kim, 2014. Modeling nonlinear monthly evapotranspiration using soft computing and data reconstruction techniques. Water Resour. Manage., 28: 185-206.
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Kim, S., Y. Seo and V.P. Singh, 2015. Assessment of pan evaporation modeling using bootstrap resampling and soft computing methods. J. Comput. Civil Eng. 10.1061/(ASCE)CP.1943-5487.0000367.
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Kim, Z. and V.P. Singh, 2014. Assessment of environmental flow requirements by entropy-based multi-criteria decision. Water Resour. Manage., 28: 459-474.
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Kochanek, K., W.G. Strupczewski, V.P. Singh and S. Weglarczyk, 2008. The PWM large quantile estimates of heavy tailed distributions from samples deprived of their largest element. Hydrol. Sci. J., 53: 367-386.
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Kochanek, K., W.G. Strupczweski, V.P. Singh and S. Weglarczyk, 2005. Are parsimonious FF models more reliable than true ones? II. Comparative assessment of the performance of simple models versus the parent distributions. Acta Geophysica Polonica, 53: 437-457.
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Kothyari, U.C. and V.P. Singh, 2008. Soil Erosionand Sediment Yield Modeling. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 983-1010.
Kwak, J., D. Kim, S. Kim, V.P. Singh and H. Kim, 2014. Hydrological drought analysis in Namhan river basin. J. Hydrol. Eng., Vol. 19. 10.1061/(ASCE)HE.1943-5584.0000889.
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Kwak, J., H. Noh, S. Kim, V.P. Singh and S.J. Hong et al., 2014. Future climate data from RCP 4.5 and occurrence of malaria in Korea. Int. J. Environ. Res. Public Health, 11: 10587-10605.
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Kwak, J., S. Kim, V.P. Singh, H.S. Kim, D. Kim, S. Hong and K. Lee, 2015. Impact of climate change on hydrological droughts in the upper Namhan river basin, Korea. KSCE J. Civil Eng., 19: 376-384.
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Kyoung, M., J. Kwak, D. Kim, H. Kim and V.P. Singh, 2011. Drought Analysis Based on SPI and SAD Curve for the Korean Peninsula Considering Climate Change. In: Climate Change-Geophysical Foundations and Ecological Effects, Blanco, J. and H. Kheradmand (Eds.). Chapter 10, InTech Publisher, Rijeka, Croatia, ISBN 978-953-307-419-1, pp: 194-214.
Kyoung, M.S., H.S. Kim, B. Sivakumar, V.P. Singh and K.S. Ahn, 2011. Dynamic characteristics of monthly rainfall in the Korean peninsula under climate change. Stochastic Environ. Res. Risk Anal., 25: 613-625.
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Lee, Y.H. and V.P. Singh, 2005. Tank model for sediment yield. Water Resour. Manage., 19: 349-362.
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Li, C. and V.P. Singh, 2014. A multimodel regression-sampling algorithm for generating rich monthly streamflow scenarios. Water Resour. Res., 50: 5958-5979.
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Li, C., V.P. Singh and A.K. Mishra, 2012. Entropy theory-based criterion for hydrometric network evaluation and design: Maximum information minimum redundancy. Water Resour. Res., Vol. 48. 10.1029/2011WR011251.
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Li, C., V.P. Singh and A.K. Mishra, 2012. Simulation of the entire range of daily precipitation using a hybrid probability distribution. Water Resour. Res., Vol. 48. 10.1029/2011WR011446.
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Li, C., V.P. Singh and A.K. Mishra, 2013. A bivariate mixed distribution with a heavy-tailed component and its application to single-site daily rainfall simulation. Water Resour. Res., 49: 767-789.
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Li, C., V.P. Singh and A.K. Mishra, 2013. Monthly river flow simulation with a joint conditional density estimation network. Water Resour. Res., 49: 3229-3242.
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Li, J., Q. Zhang, Y.D. Chen and V.P. Singh, 2013. GCMs-based spatiotemporal evolution of climate extremes during the 21st century in China. J. Geophys. Res. Atmos., 118: 11,017-11,035.
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Li, J., Q. Zhang, Y.D. Chen and V.P. Singh, 2015. Future joint probability behaviors of precipitation extremes across China: Spatiotemporal patterns and implications for flood and drought hazards. Global Planetary Change, 124: 107-122.
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Li, L., J. Xia, C.Y. Xu and V.P. Singh, 2010. Evaluation of the subjective factors of the GLUE method and comparison with the formal bayesian method in uncertainty assessment of hydrological models. J. Hydrol., 390: 210-221.
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Lin, K., F. Lv, L. Chen, V.P. Singh, Q. Zhang and X. Chen, 2014. Xinanjiang model combined with Curve number to simulate the effect of land use change on environmental flow. J. Hydrol., 519: 3142-3152.
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Liu, C.L., Q. Zhang, V.P. Singh and Y. Cui, 2011. Copula-based evaluations of drought variations in Guangdong, South China. Nat. Hazards, 59: 1533-1546.
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Liu, Q.Q. and V.P. Singh, 2004. Effect of micro-topography, slope length and gradient vegetative cover on overland flow through simulation. J. Hydrol. Eng., 9: 375-382.
Liu, Q.Q. and V.P. Singh, 2004. On the fluid-solid interaction in particle-laden flows. J. Eng. Mech., 130: 1476-1485.
Liu, Q.Q., A. Shu and V.P. Singh, 2009. Analysis of the vertical profile of concentration in sediment-laden flows-closure. J. Eng. Mech., 133: 744-745.
Liu, Q.Q., A.P. Shu and V.P. Singh, 2007. Analysis of the vertical profile of concentration in sediment-laden flows. J. Eng. Mech., 133: 601-607.
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Liu, Q.Q., H. Xiang and V.P. Singh, 2006. A simulation model for unified interrill erosion and rill erosion on hillslopes. Hydrol. Process., 20: 469-486.
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Liu, Q.Q., L. Chen, J.C. Li and V.P. Singh, 2004. Two-dimensional kinematic wave model of overland-flow. J. Hydrol., 291: 28-41.
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Liu, Q.Q., L. Chen, J.C. Li and V.P. Singh, 2005. Roll waves in overland flow. J. Hydrol. Eng., 10: 110-117.
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Liu, Q.Q., L. Chen, J.C. Li and V.P. Singh, 2007. A non-equilibrium sediment transport model for rill erosion. Hydrol. Process., 21: 1074-1084.
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Liu, Q.Q., V.P. Singh and H. Xiang, 2005. Plot erosion model using gray relational analysis method. J. Hydrol. Eng., 10: 288-294.
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Liu, X., L. Ren, F. Yuan, V.P. Singh, X. Fang, Z. Yu and W. Zhang, 2009. Quantifying the effect of land use and land cover changes on green water and blue water in northern part of China. Hydrol. Earth Syst. Sci., 13: 735-749.
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Long, D. and V.P. Singh, 2010. Integration of the GG model with SEBAL to produce time series of evapotranspiration of high spatial resolution at watershed scales. J. Geophys. Res., Vol. 115. 10.1029/2010JD014092.
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Long, D. and V.P. Singh, 2012. A modified surface energy balance algorithm for land (M-SEBAL) based on a trapezoidal framework. Water Resour. Res., Vol. 48. 10.1029/2011WR010607.
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Long, D. and V.P. Singh, 2012. A two-source trapezoid model for evapotranspiration (TTME) from satellite imagery. Remote Sens. Environ., 121: 370-388.
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Long, D. and V.P. Singh, 2012. Deriving theoretical boundaries to address scale dependencies of triangle models for evapotranspiration estimation. J. Geophys. Res., Vol. 117. 10.1029/2011JD017079.
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Long, D. and V.P. Singh, 2013. An entropy-based multispectral image classification algorithm. IEEE Trans. Geosci. Remote Sens., 51: 5225-5238.
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Long, D. and V.P. Singh, 2013. Assessing the impact of end-member selection on the accuracy of satellite-based spatial variability models for actual evapotranspiration estimation. Water Resour. Res., 49: 2601-2618.
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Long, D., V.P. Singh and Z.L. Li, 2011. How sensitive is SEBAL to changes in input variables, domain size and satellite sensor? J. Geophys. Res., Vol. 116. 10.1029/2011JD016542.
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Long, D., Y. Gao and V.P. Singh, 2010. Estimation of daily average net radiation from MODIS data and DEM over the Baiyangdian watershed in North China for clear sky days. J. Hydrol., 388: 217-233.
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Ma, M., L. Ren, V.P. Singh, X. Yang, F. Yuan and S. Jiang, 2014. New variants of the palmer drought scheme capable of integrated utility. J. Hydrol., 519: 1108-1119.
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Maheshwari, B.L., B.L. Simmons and V.P. Singh, 2012. Integrated water resources management: Understanding its complexity in peri-urban landscapes. J. Hydrol. Eng., 17: 229-236.
Marini, G., G. de Martino, N. Fontana, M. Fiorentino and V.P. Singh, 2011. Entropy approach for 2D velocity distribution in open-channel flow. J. Hydraulic Res., 49: 784-790.
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Markiewicz, I., W.G. Strupczewski, K. Kochanek and V.P. Singh, 2006. Discussion of Non-stationary pooled flood frequency analysis by J.M. Cunderlik and D.H. Burn. J. Hydrol., 330: 382-385.
Markiewicz, I., W.G. Strupczewski, K. Kochanek and V.P. Singh, 2006. Relationships between three dispersion measures used in flood frequency analysis. Stochastic Environ. Risk Anal., 20: 391-406.
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Martino, G.D., N. Fontana, G. Marini and V.P. Singh, 2012. Variability and trend in seasonal precipitation in the continental United States. J. Hydrol. Eng., 18: 630-640.
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Maruyama, T., T. Kawachi and V.P. Singh, 2005. Entropy-based assessment and clustering of potential water resources availability. J. Hydrol., 309: 104-113.
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Melone, F., C. Corradini and V.P. Singh, 2002. Lag prediction in ungauged basin: An investigation through actual data of the upper tiber river valley. Hydrol. Proc., 16: 1085-1094.
Mishra, A. and V.P. Singh, 2008. Effects of Land Use Land Cover on Hydrology and Aquatic Ecosystems. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 479-502.
Mishra, A., R. Singh and V.P. Singh, 2010. Evaluation of non-point source N and P loads in a small mixed land use land cover watershed. J. Water Resour. Protect., 2: 362-372.
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Mishra, A., S. Kar and V.P. Singh, 2007. Determination of runoff and sediment yield from a small watershed in sub-humid subtropics using the HSPF model. Hydrol. Process., 21: 3035-3045.
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Mishra, A., S. Kar and V.P. Singh, 2007. Prioritizing structural management by quantifying the effect of land use and land cover on watershed runoff and sediment yield. Water Resour. Manage., 21: 1899-1913.
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Mishra, A.K. and V.P. Singh, 2008. Development of Drought SAF Curves. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp. 811-834.
Mishra, A.K. and V.P. Singh, 2009. Analysis of drought severity-area-frequency curves using a general circulation model and scenario uncertainty. J. Geophys. Res., Vol. 114. 10.1029/2008JD010986.
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Mishra, A.K. and V.P. Singh, 2010. A review of drought concepts. J. Hydrol., 391: 202-216.
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Mishra, A.K. and V.P. Singh, 2010. Changes in extreme precipitation in Texas. J. Geophys. Res., Vol. 115. 10.1029/2009JD013398.
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Mishra, A.K. and V.P. Singh, 2011. Drought modeling-a review. J. Hydrol., 403: 157-175.
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Mishra, A.K. and V.P. Singh, 2012. Simulating hydrological drought properties at different spatial units in the United States based on wavelet-Bayesian regression approach. Earth Interact., 16: 1-23.
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Mishra, A.K., A.V. Ines, N.N. Das, C.P. Khedun, V.P. Singh, B. Sivakumar and J.W. Hansen, 2015. Anatomy of a local-scale drought: Application of assimilated remote sensing products, crop model and statistical methods to an agricultural drought study. J. Hydrol., 526: 15-29.
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Mishra, A.K., A.V.M. Ines, V.P. Singh and J.W. Hansen, 2012. Extraction of information content from stochastic disaggregation and bias corrected downscaled precipitation variables for crop simulation. Stochastic Environ. Res. Risk Assess., 27: 449-457.
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Mishra, A.K., M. Ozger and V.P. Singh, 2009. An entropy-based investigation into the variability of precipitation. J. Hydrol., 370: 139-154.
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Mishra, A.K., M. Ozger and V.P. Singh, 2009. Trend and persistence of precipitation under climate change scenarios for Kansabati basin, India. Hydrol. Process., 23: 2345-2357.
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Mishra, A.K., M. Ozger and V.P. Singh, 2010. Association between uncertainties in meteorological variables and water-resources planning for the state of Texas. J. Hydrol. Eng., 16: 984-999.
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Mishra, A.K., M. Ozger and V.P. Singh, 2011. Wet and dry spell analysis of Global climate model-generated precipitation using power laws and wavelet transforms. Stochastic Environ. Res. Risk Assess., 25: 517-535.
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Mishra, A.K., V.P. Singh and M. Ozger, 2011. Seasonal streamflow extremes in Texas river basins: Uncertainty, trends and teleconnections. J. Geophys. Res., Vol. 116. 10.1029/2010JD014597.
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Mishra, A.K., V.P. Singh and V.R. Desai, 2008. Bivariate Drought Characterization. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 793-810.
Mishra, A.K., V.P. Singh, V.R. Desai, 2009. Drought characterization: A probabilistic approach. Stochastic Environ. Res. Risk Assess., 23: 41-55.
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Mishra, A.K., V.R. Desai and V.P. Singh, 2007. Drought forecasting using a hybrid stochastic and neural network model. J. Hydrol. Eng., 12: 626-638.
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Mishra, S. and V. Singh, 2002. SCS-CN method. Part 1: Derivation of SCS-CN-based models. Acta Geophysica Polonica, 50: 457-477.
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Mishra, S.K. and V.P. Singh, 2001. Hysteresis based flood wave analysis using the concept of strain. Hydrol. Proc., 15: 1635-1651.
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Mishra, S.K. and V.P. Singh, 2001. On the Seddon speed formula. Hydrol. Sci. J., 46: 333-347.
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Mishra, S.K. and V.P. Singh, 2002. An SCS-CN based time distributed runoff model. Water Energy Int. J., 59: 34-51.
Mishra, S.K. and V.P. Singh, 2002. SCS-CN Based Hydrologic Simulation Package. In: Mathematical Models of Small Watershed Hydrology and Applications, Singh, V.P. and D.K. Frevert (Eds.). Water Resources Publications, Littleton, Colorado, pp: 391-464.
Mishra, S.K. and V.P. Singh, 2003. Derivation of the SCS-CN parameter S from linearized Fokker-Planck equation. Acta Geophysica Polonica, 51: 179-202.
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Mishra, S.K. and V.P. Singh, 2003. Role of dimensionless numbers in wave analysis. Hydrol. Processes, 17: 651-669.
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Mishra, S.K. and V.P. Singh, 2003. SCS-CN method. Part II: Analytical treatment. Acta Geophysica Polonica, 51: 107-123.
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Mishra, S.K. and V.P. Singh, 2004. Long-term hydrological simulation based on the Soil conservation service curve number. Hydrol. Process., 18: 1291-1313.
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Mishra, S.K. and V.P. Singh, 2004. Validity and extension of the SCS-CN method for computing infiltration and rainfall-excess rates. Hydrol. Process., 18: 3323-3345.
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Mishra, S.K. and V.P. Singh, 2006. A relook at NEH-4 curve number data and antecedent moisture condition criteria. Hydrol. Process., 20: 2755-2768.
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Mishra, S.K., J. Tyagi, V.P. Singh, R. Singh and A.K. Rastogi, 2005. A study of the variants of the Singh-Yu infiltration model. Water Energy Int., 62: 11-27.
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Mishra, S.K., J.J. Sansalone and V.P. Singh, 2003. Hysteresis-based analysis of overland metal transport. Hydrol. Processes, 17: 1579-1606.
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Mishra, S.K., J.J. Sansalone and V.P. Singh, 2004. Partitioning analog for metal elements in urban rainfall-runoff overland flow using the soil conservation service curve number concept. J. Environ. Eng., 130: 145-154.
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Mishra, S.K., J.J. Sansalone, D.W. Glenn and V.P. Singh, 2004. PCN based metal partitioning in urban snowmelt, rainfall/runoff and river flow systems. J. Am. Water Resour. Assoc., 40: 1315-1337.
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Mishra, S.K., J.V. Tyagi and V.P. Singh, 2003. Comparison of infiltration models. Hydrol. Process., 17: 2629-2652.
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Mishra, S.K., J.V. Tyagi, V.P. Singh and R. Singh, 2006. SCS-CN-based modeling of sediment yield. J. Hydrol., 324: 301-322.
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Mishra, S.K., M.K. Jain and V.P. Singh, 2004. Evaluation of the SCS-CN-based model incorporating antecedent moisture. Water Resour. Manage., 18: 567-589.
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Mishra, S.K., M.K. Jain, P.K. Bhunya and V.P. Singh, 2005. Field applicability of the SCS-CN-based Mishra-Singh general model and its variants. Water Resour. Manage., 19: 37-62.
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Mishra, S.K., M.K. Jain, R.P. Pandey and V.P. Singh, 2003. Evaluation of the AMC-dependent SCS-CN-based models using large data of small watersheds. Water Energy Int., 60: 13-23.
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Mishra, S.K., M.K. Jain, R.P. Pandey and V.P. Singh, 2005. Catchment area-based evaluation of the AMC-dependent SCS-CN-based rainfall-runoff models. Hydrol. Process., 19: 2701-2718.
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Mishra, S.K., M.K. Jain, V.P. Singh and R.H. Hawkins, 2005. Investigation of the SCS-CN-based general Mishra-Singh model. J. Indian Water Resour. Soc., 28: 1-24.
Mishra, S.K., R.P. Pandey, M.K. Jain and V.P. Singh, 2008. A rain duration and modified AMC-dependent SCS-CN procedure for long duration rainfall-runoff events. Water Resour. Manage., 22: 861-876.
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Mishra, S.K., V.P. Singh and S.K. Jain, 2010. Impact of global warming and climate change on social development. J. Comparative Social Welfare, 26: 239-260.
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Mishra,S.K., P.S. Babu and V.P. Singh, 2008. SCS-CN Method. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 277-330.
Mitosek, H.T., W.G. Strupczweski and V.P. Singh, 2006. Three procedures for selection of annual flood peak distribution. J. Hydrol., 323: 57-73.
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Miyab, N.M., H. Afzalimehr, V.P. Singh and B. Ghorbani, 2014. On flow resistance due to vegetation in a gravel-bed river. Int. J. Hydraulic Eng., 3: 85-92.
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Mogheir, Y. and V.P. Singh, 2002. Application of information theory to groundwater quality monitoring networks. Water Resour. Manage., 16: 37-49.
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Mogheir, Y., J.L.M.P. de Lima and V.P. Singh, 2003. Assessment of spatial structure of groundwater quality variables based on the entropy theory. Hydrol. Earth Syst. Sci., 7: 707-721.
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Mogheir, Y., J.L.M.P. de Lima and V.P. Singh, 2004. Characterizing the spatial variability of groundwater quality using the entropy theory: I. Synthetic data. Hydrological Process., 18: 2165-2179.
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Mogheir, Y., J.L.M.P. de Lima and V.P. Singh, 2004. Characterizing the spatial variability of groundwater quality using the entropy theory: II. Case study from Gaza Strip. Hydrological Process., 18: 2579-2590.
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Mogheir, Y., J.L.M.P. de Lima and V.P. Singh, 2005. Assessment of informativeness of groundwater monitoring in developing regions (Gaza strip case study). Water Resour. Manage., 19: 737-757.
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Mogheir, Y., J.L.M.P. de Lima and V.P. Singh, 2009. Entropy and multi-objective based approach for groundwater quality monitoring network assessment and redesign. Water Resour. Manage., 23: 1603-1620.
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Mogheir, Y., V.P. Singh and J.L.M.P. de Lima, 2006. Spatial assessment and redesign of groundwater quality network using the entropy theory. Hydrogeol. J., 14: 700-712.
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Mondal, N.C. and V.P. Singh, 2010. Determining the interaction between groundwater and saline water through groundwater major ions chemistry. J. Hydrol., 388: 100-111.
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Mondal, N.C. and V.P. Singh, 2010. Entropy-based approach for estimation of natural recharge in Kodaganar River basin, Tamil Nadu, India. Curr. Sci., 99: 1560-1569.
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Mondal, N.C. and V.P. Singh, 2010. Need of groundwater management in tannery belt: A scenario about Dindigul town, Tamil Nadu. J. Geol. Soc. India, 76: 303-309.
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Mondal, N.C. and V.P. Singh, 2011. Groundwater flow model for a tannery belt in southern India. J. Water Resour. Protect., 3: 85-97.
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Mondal, N.C. and V.P. Singh, 2011. Hydrochemical analysis of salinization for a tannery belt in southern India. J. Hydrol., 405: 235-247.
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Mondal, N.C. and V.P. Singh, 2012. Chloride migration in groundwater for a tannery belt in southern India. Environ. Monitor. Assess., 184: 2857-2879.
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Mondal, N.C. and V.P. Singh, 2012. Evaluation of groundwater monitoring network of Kodaganar River basin from Southern India using entropy. Environ. Earth Sci., 66: 1183-1193.
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Mondal, N.C., A.V. Rao and V.P. Singh, 2010. Efficacy of electrical resistivity and induced polarization methods for revealing fluoride contaminated groundwater in granite terrain. Environ. Monitor. Assess., 168: 103-114.
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Mondal, N.C., S. Sankaran and V.P. Singh, 2010. Estimating natural recharge in granitic terrain: An entropy approach. Adv. Geosci., 23: 197-209.
Mondal, N.C., V.K. Saxena, V.S. Singh and V.P. Singh, 2011. Assessment of seawater impact using major hydrochemical ions: A case study from Sadras, Tamilnadu, India. Environ. Monitor. Assess., 177: 315-335.
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Mondal, N.C., V.P. Singh and S. Ahmed, 2012. Entropy-based approach for assessing natural recharge in unconfined aquifers from Southern India. Water Resour. Manage., 26: 2715-2732.
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Mondal, N.C., V.P. Singh and S. Ahmed, 2013. Delineating shallow saline groundwater zones from Southern India using geophysical indicators. Environ. Monitor. Assess., 185: 4869-4886.
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Mondal, N.C., V.P. Singh and S. Sankaran, 2011. Demarcation of prospective groundwater recharge zones in hard rock area from Southern India. Scient. Res. Essays, 6: 3539-3552.
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Mondal, N.C., V.P. Singh, S. Singh and V.S. Singh, 2011. Hydrochemical characteristic of coastal aquifer from Tuticorin, Tamil Nadu, India. Environ. Monitor. Assess., 175: 531-550.
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Mondal, N.C., V.S. Singh, S.C. Puranik and V.P. Singh, 2010. Trace element concentration in groundwater of Pesarlanka Island, Krishna Delta, India. Environ. Monitor. Assess., 163: 215-227.
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Montenegro, A.A.A., J.R.C.B. Abrantes, J.L.M.P. de Lima, V.P. Singh and T.E.M. Santos, 2013. Impact of mulching on soil and water dynamics under intermittent simulated rainfall. CATENA, 109: 139-149.
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Moorhead, J.E., P.H. Gowda, V.P. Singh, D.O. Porter, T.H. Marek, T.A. Howell and B.A. Stewart, 2013. Crop-specific standardized precipitation-evapotranspiration index for the texas high plains. Applied Eng. Agric., 29: 905-916.
Moramarco, T. and V.P. Singh, 2001. Simple method for relating local stage and remote discharge. J. Hydrol. Eng., 6: 78-81.
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Moramarco, T. and V.P. Singh, 2002. Accuracy of kinematic wave and diffusion wave for spatial-varying rainfall excess over a plane. Hydrol. Processes, 16: 3419-3435.
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Moramarco, T. and V.P. Singh, 2008. Streamflow Measurements and Discharge Assessment During High Flood events. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 899-942.
Moramarco, T. and V.P. Singh, 2010. Formulation of the entropy parameter based on hydraulic and geometric characteristics of river cross sections. J. Hydrol. Eng., 15: 852-858.
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Moramarco, T., C. Pandolfo and V.P. Singh, 2008. Accuracy of kinematic wave and diffusion wave approximations for flood routing. I: Steady analysis. J. Hydrol. Eng., 13: 1078-1088.
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Moramarco, T., C. Pandolfo and V.P. Singh, 2008. Accuracy of kinematic wave approximation for flood routing. II. Unsteady analysis. J. Hydrol. Eng., 13: 1089-1096.
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Moramarco, T., C. Saltalippi and V.P. Singh, 2004. Estimating the cross-sectional mean velocity in natural channels using Chiuís velocity distribution. J. Hydrol. Eng., 9: 42-50.
Moramarco, T., C. Saltalippi and V.P. Singh, 2011. Velocity profiles assessment in natural channels during high floods. Hydrol. Res., 42: 162-170.
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Moramarco, T., F. Melone and V.P. Singh, 2005. Assessment of flooding in urbanized ungauged basins: A case study in the Upper Tiber area, Italy. Hydrol. Process., 19: 1909-1924.
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Moramarco, T., G. Corato, F. Melone and V.P. Singh, 2013. An entropy-based method for determining the flow depth distribution in natural channels. J. Hydrol., 497: 176-188.
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Moramarco, T., S. Barbetta, F. Melone and V.P. Singh, 2005. Relating local stage and remote discharge with significant lateral inflow. J. Hydrol. Eng., 10: 58-69.
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Moramarco, T., S. Barbetta, F. Melone and V.P. Singh, 2006. A real-time stage Muskingum forecasting model for a site without rating curve. Hydrol. Sci. J., 51: 66-82.
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Motamedi, A., H. Afzalimehr, V.P. Singh and L. Dufresne, 2014. An experimental study on the influence of dune dimensions on flow separation. J. Hydrol. Eng., 19: 78-86.
Motamedi, A., H. Afzalmehr and V.P. Singh, 2010. Estimation of friction factor in open channels. J. Hydrol. Eng., 15: 249-254.
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Motamedi, A., H. Afzalmehr and V.P. Singh, 2010. Evaluation of a novel approach to determine the critoical Shields stress. J. Hydrol. Eng., 15: 892-900.
Mukhopadhyay, B. and V.P. Singh, 2011. Hydrologic Modeling at Mesoscopic Scales Using Global Datasets on Topography, Cartography, Climate, Land Cover and Soil Types to Derive Stream Water Availability Models of River Basins. In: Soil Hydrology, Land Use and Agriculture, Shukla, M.K. (Ed.). CABI Publishers, UK., ISBN: 9781845938772, pp: 24-74.
Nafarzadegan, A.R., H. Ahani, V.P. Singh and M. Kherad, 2013. Parametric and non-parametric trend of reference evapotranspiration and its key influencing climatic variables (Case study: Southern Iran). ECOPERSIA, 1: 123-144.
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Nourani, V., A.A. Moghaddam, A.O. Nadiri and V.P. Singh, 2008. Forecasting spatiotemporal water levels of tabriz aquifer. Trends Applied Sci. Res., 3: 319-329.
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Nourani, V., M.H. Aminfar, M.T. Alami, E. Sharghi and V.P. Singh, 2014. Unsteady 2-D seepage simulation using physical analog, case of Sattarkhan embankment dam. J. Hydrol., 519: 177-189.
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Nourani, V., P. Monadjemi and V.P. Singh, 2007. Liquid analog model for laboratory simulation of rainfall-runoff process. J. Hydrol. Eng., 12: 246-255.
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Nourani, V., V.P. Singh and H. Delafrouz, 2009. Three geomorphological rainfall-runoff models based on the linear reservoir concept. CATENA, 76: 206-214.
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Nourani, V., V.P. Singh, M.T. Alami and H. Delafroz, 2008. Geomorphological runoff routing modeling based on linear reservoirs cascade. J. Applied Sci., 8: 1660-1667.
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Nunes, J.P., J.L.M.P. de Lima, V.P. Singh, M.I.P. de Lima and G.N. Vieira, 2006. Numerical modeling of surface runoff and erosion due to moving rainstorms at the drainage basin scale. J. Hydrol., 330: 709-720.
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Ojha, C.S.P. and V.P. Singh, 2002. ANN Modeling in Watershed Hydrology. In: Mathematical Models of Large Watershed Hydrology, Singh, V.P. and D.K. Frevert (Eds.). Water Resources Publications, Littleton, Colorado, pp: 67-88.
Ojha, C.S.P. and V.P. Singh, 2002. Models of Water Balance in a Small Watershed. In: Mathematical Models of Small Watershed Hydrology and Applications, Singh, V.P. and D.K. Frevert (Eds.). Water Resources Publications, Littleton, Colorado, pp: 483-510.
Ojha, C.S.P., A.K. Thakur and V.P. Singh, 2013. Modeling of river bank filtration: Recent experience from some RBF sites in India. J. Ground Water Res., 2: 46-54.
Ojha, C.S.P., A.K. Thakur and V.P. Singh, 2013. Modelling of river bank filtration: Experience from RBF site in India. J. Ground Water Res., 2: 46-54.
Ojha, C.S.P., V.P. Singh and D.D. Adrian, 2001. Influence of porosity on piping models of levee failure. J. Geotech. Geoen. Eng., 127: 1071-1074.
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Ojha, C.S.P., V.P. Singh and D.D. Adrian, 2003. Determination of critical head in soil piping. J. Hydraulic Eng., 129: 511-518.
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Ojha, C.S.P., V.P. Singh and D.D. Adrian, 2008. Assessment of the role of slit as a safety valve in failure of levees. Int. J. Sediment Res., 23: 361-375.
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Oreizi, Z., H. Afzalimehr, V.P. Singh and S.S. Okhravi, 2014. Investigation of particle-size distribution and friction factor for a Gravel-Bed river: Marbar. J. River Eng., 2: 1-6.
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Ozger, M., A.K. Mishra and V.P. Singh, 2009. Low frequency drought variability associated with climate indices. J. Hydrol., 364: 152-162.
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Ozger, M., A.K. Mishra and V.P. Singh, 2010. Scaling characteristics of precipitation data in conjunction with wavelet analysis. J. Hydrol., 395: 279-288.
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Ozger, M., A.K. Mishra and V.P. Singh, 2011. Estimating palmer drought severity index using a wavelet fuzzy logic model based on meteorological variables. Int. J. Climatol., 31: 2021-2032.
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Ozger, M., A.K. Mishra and V.P. Singh, 2011. Scaling characteristics of precipitation data over Texas. J. Hydrol. Eng., 16: 1009-1016.
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Ozger, M., A.K. Mishra and V.P. Singh, 2012. Long lead time drought forecasting using a wavelet and fuzzy logic combination model: A case study in Texas. J. Hydrometeorol., 13: 284-297.
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Ozkan, S., D.D. Adrian, G.L. Sills and V.P. Singh, 2008. Transient head development due to flood induced seepage under levees. J. Geotech. Geoenviron. Eng., 134: 781-789.
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Pandey, A., R. Prasad, V.P. Singh, S.K. Jha and K.K. Shukla, 2013. Crop parameters estimation by fuzzy inference system using X-band scatterometer data. Adv. Space Res., 51: 905-911.
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Pandey, P.K., M.L. Soupir, V.P. Singh, S.N. Panda and V. Pandey, 2011. Modeling rainwater storage in distributed reservoir systems in humid subtropical and tropical Savannah regions. Water Resour. Manage., 25: 3091-3111.
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Pandey, P.K., P. van der Zaag, M.L. Soupir and V.P. Singh, 2013. A new model for simulating supplemental irrigation and the hydro-economic potential of a rainwater harvesting system in humid subtropical climates. Water Resour. Manage., 27: 3145-3164.
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Pandey, P.K., P.H. Kass, M.L. Soupir, S. Biswas and V.P. Singh, 2014. Contamination of water resources by pathogenic bacteria. AMB Express, Vol. 4. .
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Patil, S. and V.P. Singh, 2008. Effect of vertically logarithmic steady currents on shallow surface waves. Phys. Oceanogr., 18: 133-153.
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Patil, S. and V.P. Singh, 2008. Hydrodynamic Transport in Flow with Vegetation Subject to Waves and Currents. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 1051-1080.
Patil, S. and V.P. Singh, 2009. Hydrodynamics of wave and current vegetation interaction. J. Hydrol. Eng., 14: 1320-1333.
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Patil, S. and V.P. Singh, 2010. A close-form model for dispersion in shallow waves over varying shear current. Adv. Theor. Applied Mech., 3: 1-29.
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Patil, S. and V.P. Singh, 2010. Characteristics of Monami wave in submerged vegetated flow. J. Hydrol. Eng., 15: 171-181.
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Patil, S. and V.P. Singh, 2011. Dispersion model for varying vertical shear in vegetated channels. J. Hydraulic Eng., 137: 1293-1297.
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Patil, S. and V.P. Singh, 2012. Dispersion in submerged vegetated flow with coherent vortices. J. Hydrol. Eng., 17: 1-9.
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Patil, S., V.P. Singh and A.K. Rastogi, 2008. Analysis of Monami Waves in Aquatic Vegetation. In: Advances in Geosciences, Park N. (Ed.). World Scientific Company, USA., pp: 161-170.
Patil, S., V.P. Singh and A.K. Rastogi, 2009. On the dispersion of pollutants in initial unsteady phase. Adv. Theor. Applied Mech., 2: 179-204.
Patil, S., V.P. Singh and A.K. Rastogi, 2010. Linear instability theory for frequency assessment of coherent vortices in submerged and aside rigid canopies. J. Hydrol. Eng., 15: 1023-1029.
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Patil, S., V.P. Singh and J. Imberger, 2010. Horizontal dispersion in gyres-internal wave flow field in a rotating circular lake. J. Hydrol. Eng., 15: 597-611.
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Perea, H., J. Enciso, V.P. Singh, D.P. Dutta and B.J. Lesikar, 2013. Statistical analysis of non-pressure compensating drip emitters. J. Irrig. Drainage Eng., 139: 986-994.
Poorhosein, M., H. Afzalimehr, J. Sui, V.P. Singh and S. Azareh, 2014. Empirical bed load transport equations. Int. J. Hydraulic Eng., 3: 93-101.
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Pourhosein, M., H. Afzalimehr, V.P. Singh and J. Sui, 2014. Evaluation of bed load in a Gravel Bed river. Int. J. Eng. Innov. Technol., 3: 1-7.
Prasad, R., A. Pandey, K.P. Singh, V.P. Singh, R.K. Mishra and D. Singh, 2012. Retrieval of spinach crop parameters by microwave remote sensing with back propagation artificial neural networks: A comparison of different transfer functions. Adv. Space Res., 50: 363-370.
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Rai, R.K. and V.P. Singh, 2012. Global Water Balance and Food Security. In: Soil Water and Agronomic Productivity, Lall, R. and B.A. Stewart (Eds.). Chapter 1, CRC Press, Boca Raton, Florida, ISBN: 9781439850794, pp: 3-41.
Rai, R.K., A. Upadhyay and V.P. Singh, 2010. Effect of variable roughness on runoff. J. Hydrol., 382: 115-127.
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Rai, R.K., A. Upadhyay, S. Sarkar, A.M. Upadhyay and V.P. Singh, 2009. GIUH based transfer function for Gomti river basin of India. J. Spatial Hydrol., 9: 24-50.
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Rai, R.K., M.K. Jain, S.K. Mishra, C.S.P. Ojha and V.P. Singh, 2007. Another look at Z-transform technique for deriving unit impulse response function. Water Resour. Manage., 21: 1829-1848.
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Rai, R.K., S. Sarkar and V.P. Singh, 2009. Evaluation of the adequacy of statistical distribution functions for deriving unit hydrograph. Water Resour. Manage., 23: 899-930.
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Rai, R.K., S. Sarkar, A. Upadhyay and V.P. Singh, 2010. Efficacy of Nakagami-m distribution function for deriving unit hydrograph. Water Resour. Manage., 24: 563-575.
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Rai, S. and V.P. Singh, 2005. Artificial Recharge of Unconfined Aquifer. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp: 11-17.
Rajasekhar, D., V.P. Singh and A.K. Mishra, 2014. Hydrologic drought atlas for Texas. J. Hydrol. Eng., Vol. 19. 10.1061/(ASCE)HE.1943-5584.0001074.
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Rajsekhar, D., A.K. Mishra and V.P. Singh, 2013. Regionalization of drought characteristics using an entropy approach. J. Hydrol. Eng., 18: 870-887.
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Rajsekhar, D., V.P. Singh and A.K. Mishra, 2015. Multivariate drought index: An information theory based approach for integrated drought assessment. J. Hydrol., 526: 164-182.
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Reddy, M.J. and V.P. Singh, 2014. Multivariate modeling of droughts using copulas and meta-heuristic methods. Stochastic Environ. Res. Risk Assess., 28: 475-489.
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Rezaeian-Zadeh, M., S. Zand-Parsa, H. Abghari, M. Zolghadr and V.P. Singh, 2012. Hourly air temperature driven using multi-layer perceptron and radial basis function networks in arid and semi-arid regions. Theor. Applied Climatol., 109: 519-528.
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Rezaeianzadeh, M., A. Stein, H. Tabari, H. Abghari, N. Jalalkamali, E.Z. Hosseinipour and V.P. Singh, 2013. Assessment of a conceptual hydrological model and artificial neural networks for daily outflows forecasting. Int. J. Environ. Sci. Technol., 10: 1181-1192.
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Rowinski, P.M., W.G. Strupczewski and V.P. Singh, 2002. A note on the applicability of log-Gumbel and log-logistic probability distributions in hydrological analyses: I. Known pdf. Hydrol. Sci. j., 47: 107-122.
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Sarma, B., A.K. Sarma and V.P. Singh, 2013. Optimal Ecological Management Practices (EMPS) for minimizing the impact of climate change and watershed degradation due to urbanization. Water Resour. Manage., 27: 4069-4082.
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Sarma, B., A.K. Sarma, C. Mahanta and V.P. Singh, 2015. Optimal ecological management practices for controlling sediment yield and peak discharge from hilly urban areas. J. Hydrol. Eng. 10.1061/(ASCE)HE.1943-5584.0001154.
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Seo, Y., S. Kim and V.P. Singh, 2014. Assessment of uncertainty in the spatial distribution of rainfall using geostochastic simulation. J. Hydrol. Eng., 19: 978-992.
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Seo, Y., S. Kim and V.P. Singh, 2015. Estimating spatial precipitation using Regression Kriging and Artificial Neural Network Residual Kriging (RKNNRK) hybrid approach. Water Resour. Manage., 29: 2189-2204.
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Seo, Y., S. Kim and V.P. Singh, 2015. Multistep-ahead flood forecasting using wavelet and data-driven methods. KSCE J. Civil Eng., 19: 401-417.
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Seo, Y., S. Kim, O. Kisi and V.P. Singh, 2015. Daily water level forecasting using wavelet decomposition and artificial intelligence techniques. J. Hydrol., 520: 224-243.
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Shao, Q., L. Zhang, Y.D. Chen and V.P. Singh, 2009. A new method for modelling flow duration curves and predicting streamflow regimes under altered land-use conditions. Hydrol. Sci. J., 54: 606-622.
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Sherif, M.M. and V.P. Singh, 2002. Effect of groundwater pumping on seawater intrusion in coastal aquifers. Agric. Sci., 7: 61-67.
Shiri, J., P. Marti and V.P. Singh, 2014. Evaluation of gene expression programming approaches for estimating daily evaporation through spatial and temporal data scanning. Hydrol. Process., 28: 1215-1225.
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Singh, K.K., C.S.P. Ojha and V.P. Singh, 2008. Mean annual flood from catchment and rainfall characteristics. Water Energy Res. Digest, 18: 36-38.
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Singh, K.K., M. Pal and V.P. Singh, 2010. Estimation of mean annual flood in Indian catchments using backpropagation neural network and M5 model tree. Water Resour. Manage., 24: 2007-2019.
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Singh, K.K., M. Pal, C.S.P. Ojha and V.P. Singh, 2008. Estimation of removal efficiency for settling basins using neural networks and support vector machines. J. Hydrol. Eng., 13: 146-155.
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Singh, M., S. Ahamad and V. Singh, 2014. One-dimensional uniform and time varying solute dispersion along transient groundwater flow in a semi-infinite aquifer. Acta Geophysica, 62: 872-892.
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Singh, M.K., P. Singh and V.P. Singh, 2009. Solute transport model for one-dimensional homogeneous porous formations with time dependent point-source concentration. Adv. Theor. Applied Mech., 2: 143-157.
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Singh, M.K., P. Singh and V.P. Singh, 2010. Analytical solution for solute transport along and against time dependent source concentration in homogeneous finite aquifers. Adv. Theor. Applied Mech., 3: 99-119.
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Singh, M.K., P. Singh and V.P. Singh, 2010. Analytical solution for two-dimensional solute in finite aquifer with time dependent source concentration. J. Eng. Mech., 136: 1309-1315.
Singh, M.K., S. Ahamad and V.P. Singh, 2011. Analytical solution for one-dimensional solute dispersion with time-dependent source concentration along uniform groundwater flow in a homogeneous porous formation. J. Eng. Mech., 138: 1045-1056.
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Singh, M.K., S. Ahamad and V.P. Singh, 2012. No-reactive solute dispersion in aquifers subjected to temporally dependent source concentration. Int. J. Geol. Earth Environ. Sci., 2: 235-244.
Singh, M.K., V.P. Singh, P. Kumari and P. Das, 2012. Analytical and numerical approaches to horizontal non-reactive solute dispersion in a semi-infinite aquifer. J. Ground Water Res., 1: 42-51.
Singh, M.K., V.P. Singh, P. Singh and D. Shukla, 2009. Analytical solution for conservative solute transport in one-dimensional homogeneous porous formations with time-dependent velocity. J. Eng. Mech., 135: 1015-1021.
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Singh, V.P. and A.R. Rao, 2008. A Short Biography. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 3-58.
Singh, V.P. and C.S.P. Ojha, 2008. Characteristic velocity of stream bed movement. J. Hydrol. Eng., 13: 96-100.
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Singh, V.P. and D.A. Woolhiser, 2002. Mathematical modeling of watershed hydrology. J. Hydrol. Eng. ASCE, 7: 270-292.
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Singh, V.P. and D.K. Frevert, 2002. Mathematical Modeling of Watershed Hydrology. In: Mathematical Models of Small Watershed Hydrology and Applications, Singh, V.P. and D.K. Frevert (Eds.). Water Resources Publications, Littleton, Colorado, pp: 1-3.
Singh, V.P. and D.K. Frevert, 2012. Mathematical Modeling of Watershed Hydrology. In: Mathematical Models of Large Watershed Hydrology, Singh, V.P. and D. K. Frevert (Eds.). Water Resources Publications, Littleton, Colorado, pp: 1-22.
Singh, V.P. and G. Tayfur, 2008. Kinematic wave theory for transient bed sediment waves in Alluvial rivers. J. Hydrol. Eng., 13: 297-304.
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Singh, V.P. and H. Cui, 2014. Suspended sediment concentration distribution using tsallis entropy. Phys. A: Stat. Mech. Applic., 414: 31-42.
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Singh, V.P. and H. Cui, 2015. Modeling sediment concentration in debris flow by tsallis entropy. Phys. A: Stat. Mech. Applic., 420: 49-58.
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Singh, V.P. and J. Oh, 2015. A tsallis entropy-based redundancy measure for water distribution networks. Phys. A: Stat. Mech. Applic., 421: 360-376.
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Singh, V.P. and L. Hao, 2011. Entropy theory for distribution of one-dimensional velocity in open channels. J. Hydrol. Eng., 16: 725-735.
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Singh, V.P. and L. Zhang, 2007. IDF curves using the Frank Archimedean copula. J. Hydrol. Eng., 12: 651-662.
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Singh, V.P. and L. Zhang, 2008. At-a-station hydraulic geometry relations, 1: Theoretical development. Hydrol. Process., 22: 189-215.
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Singh, V.P. and L. Zhang, 2008. At-a-station hydraulic geometry relations, 2: Calibration and testing. Hydrol. Process., 22: 216-228.
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Singh, V.P. and L. Zhang, 2009. IDF curves using the Frank Archimedean copula-closure. J. Hydrol. Eng., 14: 108-109.
Singh, V.P. and M. Ahmad, 2003. A comparative evaluation of the estimators of the 2-parameter generalized pareto distribution. Water Eng. Res., 4: 155-173.
Singh, V.P. and M. Ahmad, 2004. A comparative evaluation of the estimators of the three-parameter generalized pareto distribution. Stat. Comput. Simul., 74: 91-106.
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Singh, V.P. and S.K. Jain, 2002. Watershed management: New approaches and paradigms. Ann. of Arid Zone, 41: 233-262.
Singh, V.P. and S.K. Jain, 2008. Brahmaputra Basin. In: Encyclopedia of Water Science, Trimble, W. (Ed.). Mercel and Dekker, New York.
Singh, V.P. and W.G. Strupczweski, 2002. On the status of flood frequency analysis. Hydrol. Processes, 16: 3737-3740.
Singh, V.P. and Z.Q. Deng, 2003. Entropy-based parameter estimation for kappa distribution. J. Hydrol. Eng., 8: 81-92.
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Singh, V.P., 2000. Model sophistication in relation to scales in snowmelt runoff modeling. Nordic Hydrol., 3: 267-286.
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Singh, V.P., 2001. Kinematic wave modelling in water resources: A historical perspective. Hydrolog. Proc., 15: 671-706.
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Singh, V.P., 2002. A physical theory of frequency analysis in environmental and water resources. NTU Civil Eng. Res., 17: 108-109.
Singh, V.P., 2002. Effect of the duration and direction of storm movement on infiltrating planar flow with full areal coverage. Hydrol. Proc., 16: 1479-1511.
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Singh, V.P., 2002. Effect of the duration and direction of storm movement on planar flow with full and partial areal coverage. Hydrol. Processes, 16: 3437-3466.
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Singh, V.P., 2002. Is hydrology kinematic?. Hydrol. Proc., 16: 667-716.
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Singh, V.P., 2002. Kinematic wave solutions for pollutant transport by runoff over an impervious plane, with instantaneous or finite period mixing. Hydrol. Proc., 16: 1831-1863.
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Singh, V.P., 2002. Kinematic wave solutions for pollutant transport over an infiltrating plane with finite period mixing and mixing zone. Hydrol. Proc., 16: 2441-2477.
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Singh, V.P., 2002. Statistical Analyses Design. In: Encyclopedia of Life Support Systems, Sydow, A. (Eds.). EOLSS Publishers Co., Ltd., Oxford, UK.
Singh, V.P., 2003. On the theories of hydraulic geometry. Int. J. Sediment Res., 18: 196-218.
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Singh, V.P., 2003. The Entropy Theory as a Decision Making Tool in Environmental and Water Resources. In: Entropy Measures, maximum Entropy and Emerging Applications, Karmeshu, (Ed.). Springer-Verlag, Bonn, Germany, pp: 261-297.
Singh, V.P., 2003. Toward a theory of bureaucracy for social development and its relation to thermodynamics. New Global Dev., 19: 75-94.
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Singh, V.P., 2004. Hydrology.. In: The Engineering Handbook, Dorf, R.C. (Ed.). 2nd Edn., CRC Press, USA., pp: 96-1, 96-18.
Singh, V.P., 2004. Interdisciplinary discussions of hydrology and river linking take place in India. EOS, Trans. Am. Geophys. Union, 85: 187-187.
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Singh, V.P., 2005. Analytical formulae for deconstructing diversity discourse. New Global Dev., 21: 89-93.
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Singh, V.P., 2005. Effects of storm direction and duration on infiltrating planar flow with partial coverage. Hydrol. Process., 19: 969-992.
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Singh, V.P., 2005. Entropy Theory for Hydrologic Modeling. In: Water Encyclopedia: Oceanography; Meteorology; Physics and Chemistry; Water Law; and Water History, Art, and Culture, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp. 217-223.
Singh, V.P., 2005. Kinematic Shock. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp: 239-242.
Singh, V.P., 2005. Kinematic Wave Flow Routing. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp. 253-259.
Singh, V.P., 2005. Kinematic Wave and Diffusion Wave Theories. In: Water Encyclopedia: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Ed.). John Wiley & Sons, Hoboken, New Jersey, pp. 246-253.
Singh, V.P., 2005. Unit Hydrograph. In: Encyclopedia of Water: Surface and Agricultural Water, Lehr, J.H., J. Keeley, J. Lehr and T.B. Kingery (Eds.). John Wiley & Sons, Hoboken, New Jersey, pp: 355-360.
Singh, V.P., 2006. Mathematical Modeling of Flow in Watersheds and Rivers. In: Encyclopedia of Life Support Systems: Mathematical Models, Filar, J.A. and J.B. Krawczyk, UNESCO, EOLSS Publishers, Oxford.
Singh, V.P., 2008. Water, environment, engineering, religion and society 1. J. Hydrol. Eng., 13: 118-123.
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Singh, V.P., 2010. Derivation of rating curves using entropy theory. Trans. ASABE, 53: 1811-1821.
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Singh, V.P., 2010. Entropy theory for derivation of infiltration equations. Water Resour. Res., Vol. 46. 10.1029/2009WR008193.
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Singh, V.P., 2010. Entropy theory for earth science modeling. Indian Geol. Congress J., 2: 5-40.
Singh, V.P., 2010. Entropy theory for hydrologic modeling. J. Beijing Normal Univ. J. Res., 46: 229-240.
Singh, V.P., 2010. Entropy theory for movement of moisture in soils. Water Resour. Res., Vol. 46. 10.1029/2009WR008288.
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Singh, V.P., 2010. Tsallis entropy theory for derivation of infiltration equations. Trans. ASABE, 53: 447-463.
Singh, V.P., 2011. A shannon entropy-based general derivation of infiltration equations. Trans. ASABE, 54: 123-129.
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Singh, V.P., 2011. An IUH equation based on entropy theory. Trans. ASABE, 54: 131-140.
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Singh, V.P., 2011. Derivation of power law and logarithmic velocity distributions using the Shannon entropy. J. Hydrol. Eng., 16: 478-483.
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Singh, V.P., 2011. Derivation of the Singh-Yu infiltration equation using entropy theory. J. Hydrol. Eng., 16: 187-191.
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Singh, V.P., 2011. Hydrologic synthesis using entropy theory: Review. J. Hydrol. Eng., 16: 421-433.
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Singh, V.P., 2012. Derivation of furrow geometry using entropy theory. Trans. ASABE, 55: 987-993.
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Singh, V.P., 2013. SCS-CN method revisited using entropy theory. Trans. ASABE, 56: 1805-1820.
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Singh, V.P., A. Byrd and H. Cui, 2014. Flow duration curve using entropy theory. J. Hydrol. Eng., 19: 1340-1348.
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Singh, V.P., A.K. Mishra and H. Chowdhary, 2014. Climate Change and its Impact on Water Resources Engineering. In: Modern Water Resources Engineering: Handbook of Environmental Engineering Series, Volume 15, Wang, L.K. and C.T. Yang (Eds.). Humana Press, New York, pp: 525-570.
Singh, V.P., C.P. Khedun and A.K. Mishra, 2014. Water, environment, energy and population growth: Implications for water sustainability under climate change. J. Hydrol. Eng., 19: 667-673.
Singh, V.P., C.T. Yang and Z.Q. Deng, 2003. Downstream hydraulic geometry relations: 1. Theoretical development. Water Resour. Res., Vol. 39. 10.1029/2003WR002484.
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Singh, V.P., C.T. Yang and Z.Q. Deng, 2003. Downstream hydraulic geometry relations: 2. Calibration and testing. Water Resour. Res., Vol. 39. 10.1029/2003WR002498.
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Singh, V.P., D.K. Frevert, J.D. Rieker, V. Leverson, S. Meyer and S. Meyer, 2006. The hydrologic modeling inventory-a cooperative research effort. J. Irrig. Drainage Eng., 132: 98-103.
Singh, V.P., G. Marini and N. Fontana, 2013. Derivation of 2D power-law velocity distribution using entropy theory. Entropy, 13: 1221-1231.
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Singh, V.P., H. Cui and A.R. Byrd, 2014. Derivation of rating curve by the tsallis entropy. J. Hydrol., 513: 342-352.
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Singh, V.P., H. Cui and A.R. Byrd, 2014. Tsallis entropy-based flow duration curve. Trans. ASABE, 57: 837-849.
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Singh, V.P., H. Cui and A.R. Byrd, 2015. Sediment graphs based on entropy theory. J. Hydrol. Eng., Vol. 20. 10.1061/(ASCE)HE.1943-5584.0001068.
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Singh, V.P., L. Zhang and A. Rahimi, 2012. Probability distribution of rainfall-runoff using entropy theory. Trans. ASABE, 55: 1733-1744.
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Singh, V.P., S.K. Jain and M.M. Sherif, 2005. Errors of kinematic wave and diffusion wave approximations for time-independent flows with infiltration and momentum exchange included. Hydrol. Process., 19: 1771-1790.
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Singh, V.P., S.X. Wang and L. Zhang, 2005. Frequency analysis of nonidentically distributed hydrologic flood data. J. Hydrol., 307: 175-195.
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Sivakumar, B. and V.P. Singh, 2012. Hydrologic system complexity and nonlinear dynamic concepts for a catchment classification framework. Hydrol. Earth Syst. Sci., 16: 4119-4131.
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Sivakumar, B. and V.P. Singh, 2015. Special issue on grand challenges in hydrology. J. Hydrol. Eng., Vol. 20. 10.1061/(ASCE)HE.1943-5584.0000983.
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Sivakumar, B., V.P. Singh, R. Berndtsson and S.K. Khan, 2015. Catchment classification framework in hydrology: Challenges and directions. J. Hydrol. Eng., Vol. 20. 10.1061/(ASCE)HE.1943-5584.0000837.
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Song, S. and V.P. Singh, 2010. Frequency analysis of droughts using the plackett copula and parameter estimation by genetic algorithm. Stochastic Environ. Res. Risk Anal., 24: 425-444.
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Song, S. and V.P. Singh, 2010. Meta-elliptical copulas for drought frequency analysis of periodic hydrologic data. Stochastic Environ. Res. Risk Anal., 24: 425-444.
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Strupczewski, W., S. Węglarczyk and V. Singh, 2002. Physics of flood frequency analysis. Part I. Linear convective diffusion wave model. Acta Geophysica Polonica, 50: 433-455.
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Strupczewski, W., V.P. Singh, S. Weglarczyk and H.T. Mitosek, 2003. Physics of flood frequency analysis, II. Linear diffusion model versus lognormal model. Acta Geophysica Polonica, 51: 85-106.
Strupczewski, W.G., K. Kochanek and V.P. Singh, 2007. On the informative value of the largest sample element of Log-Gumbel distribution. Acta Geophysica, 55: 652-678.
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Strupczewski, W.G., K. Kochanek, I. Markiewicz, E. Bogdanowicz and V.P. Singh, 2011. On the tails of distributions of annual peak flow. Hydrol. Res., 42: 171-192.
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Strupczewski, W.G., K. Kochanek, S. Weglarczyk and V.P. Singh, 2005. On the robustness of large quantile estimates of log-gumbel and log-logistic distributions to largest element of the observation series: Monte carlo results vs. first order approximation. Stochastic Environ. Res. Risk Assess., 19: 280-291.
Strupczewski, W.G., K. Kochanek, S. Weglarczyk and V.P. Singh, 2007. On robustness of large quantile estimates to largest elements of the observation series. Hydrol. Process., 21: 1328-1344.
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Strupczewski, W.G., K. Kochanek, V.P. Singh and S. Weglarczyk, 2005. Are parsimonious FF models more reliable than true ones? I. Accuracy of Quantiles and Moments Estimation (AQME)-method of assessment. Acta Geophysica Polonica, 53: 419-436.
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Strupczewski, W.G., K. Kochanek, W. Feluch, E. Bogdanowicz and V.P. Singh, 2009. On seasonal approach to nonstationary flood frequency analysis. Phys. Chem. Earth Parts A/B/C, 34: 612-618.
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Strupczewski, W.G., V.P. Singh and H.T. Mitosek, 2001. Non-stationary approach to at-site flood frequency modelling. III. Flood analysis of Polish rivers. J. Hydrol., 248: 152-167.
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Strupczewski, W.G., V.P. Singh and S. Weglarczyk, 2001. Impulse response of a linear diffusion analogy model as a flood frequency probability density function. Hydrol. Sci. J., 46: 761-780.
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Strupczewski, W.G., V.P. Singh and S. Weglarczyk, 2002. Asymptotic bias of estimation methods caused by the assumption of false probability distribution. J. Hydrol., 258: 122-148.
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Strupczewski, W.G., V.P. Singh and W. Feluch, 2001. Non-stationary approach to at-site flood frequency modelling I. Maximum likelihood estimation. J. Hydrol., 248: 123-142.
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Strupczewski, W.G., V.P. Singh, S. Weglarczyk, K. Kochanek and H.T. Mitosek, 2006. Complementary aspects of linear flood routing modelling and flood frequency analysis. Hydrol. Process., 20: 3535-3554.
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Strupczweski, W., S. Weglarczyk and V.P. Singh, 2002. Model error in flood frequency estimation. Acta Gephysica Polonica, 50: 279-319.
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Strupczweski, W.G., H.T. Mitosek, K. Kochanek, V.P. Singh and S. Weglarczyk, 2005. Probability of correct selection from lognormal and convective diffusion models based on likelihood ratio. Stochastic Environ. Risk Anal., 19: 280-291.
Strupczweski, W.G., H.T. Mitosek, K. Kochanek, V.P. Singh and S. Weglarczyk, 2006. Probability of correct selection from lognormal and convective diffusion models based on the likelihood ratio. Stochastic Environ. Res. Risk Assess., 20: 152-163.
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Strupczweski, W.G., I. Markiewicz, K. Kochanek and V.P. Singh, 2008. Short Walk into Two-Shape-Parameter Flood Frequency Distributions. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 669-716.
Strupczweski, W.G., S. Weglarczyk and V.P. Singh, 2003. Impulse response of the kinematic diffusion model as a probability distribution of hydrologic samples with zero values. J. Hydrol., 270: 328-351.
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Su, X., J. Li and V.P. Singh, 2014. Optimal allocation of agricultural water resources based on virtual water subdivision in Shiyang river basin. Water Resour. Manage., 28: 2243-2257.
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Tayfur, G. and V.P. Singh, 2004. Numerical model for sediment transport over non-linear non-homogeneous surfaces. J. Hydrol. Eng., 9: 35-41.
Tayfur, G. and V.P. Singh, 2005. Predicting longitudinal dispersion coefficient in natural streams by artificial neural network. J. Hydraulic Eng., 131: 991-1000.
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Tayfur, G. and V.P. Singh, 2006. ANN and fuzzy logic models for simulating event-based rainfall-runoff. J. Hydraulic Eng., 132: 1321-1329.
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Tayfur, G. and V.P. Singh, 2006. Kinematic wave model of bed profiles in alluvial channels. Water Resour. Res., Vol. 42. 10.1029/2005WR004089.
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Tayfur, G. and V.P. Singh, 2007. Kinematic wave model for transient bed profiles in alluvial channels under nonequilibrium conditions. Water Resour. Res., Vol. 43. 10.1029/2006WR005681.
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Tayfur, G. and V.P. Singh, 2009. ANN and fuzzy logic models for simulating event-based rainfall-runoff-closure. J. Hydraulic Eng., 132: 1400-1401.
Tayfur, G. and V.P. Singh, 2011. Predicting mean and bankfull discharge from channel cross-sectional area by expert and regression methods. Water Resour. Manage., 25: 1253-1267.
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Tayfur, G. and V.P. Singh, 2011. Simulating transient sediment waves in aggraded alluvial channels using double decomposition methods. J. Hydrol. Eng., 16: 362-370.
Tayfur, G. and V.P. Singh, 2012. Transport capacity models for unsteady and non-equilibrium sediment transport in alluvial channels. Comput. Electron. Agric., 86: 26-33.
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Tayfur, G., D. Swiatek, A. Wita and V.P. Singh, 2005. Case study: Finite element method and artificial neural network models for flow through Jeziorsko earthfill dam in Poland. J. Hydraulic Eng., 131: 431-440.
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Tayfur, G., S. Ozdemir and V.P. Singh, 2003. Fuzzy logic algorithm for runoff-induced sediment tansport from bare soil surfaces. Adv. Water Res., 26: 1249-1256.
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Tayfur, G., T. Moramarco and V.P. Singh, 2007. Predicting and forecasting flow discharge at sites receiving significant lateral inflow. Hydrol. Process., 21: 1838-1859.
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Thakur, A.K., C.S.P. Ojha, V.P. Singh, B.R. Gurjar and C. Sandhu, 2013. Removal of pathogens by River Bank filtration at Haridwar, India. Hydrol. Process., 27: 1535-1542.
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Thakur, A.K., V.P. Singh and C.S.P. Ojha, 2012. Evaluation of a probabilistic approach to simulation of alkalinity and electrical conductivity at a river bank filtration site. Hydrol. Process., 26: 3362-3368.
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Thiam, E.I. and V.P. Singh, 2002. Space-time-frequency analysis of rainfall, runoff and temperature in the casamance river basin, Southern Senegal, West Africa. Water SA, 28: 259-270.
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Tong, X., D. Wang, V.P. Singh, J.C. Wu, X. Chen and Y.F. Chen, 2014. Impact of data length on the uncertainty of hydrological copula modeling. J. Hydrol. Eng., Vol. 19. 10.1061/(ASCE)HE.1943-5584.0001039.
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Tsai, C.N., D.D. Adrian and V.P. Singh, 2001. Finite fourier probability distribution and applications. J. Hydrol. Eng., 6: 460-471.
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Tsai, C.N., D.D. Adrian and V.P. Singh, 2003. Closure to finite fourier probability distribution and applications by C.N. Tsai, D.D. Adrian and V.P. Singh. J. Hydrol. Eng., 8: 232-232.
Tu, X., Q. Zhang, V.P. Singh, X. Chen, C. Liu and S.B. Wang, 2012. Space-time changes in hydrological processes in response to human activities and climatic change in the South China. Stochastic Environ. Res. Risk Assess., 26: 823-834.
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Tu, X., V.P. Singh, X. Chen, L. Chen, Q. Zhang and Y. Zhao, 2015. Intra-annual distribution of streamflow and individual impacts of climate change and human activities in the Dongijang river basin, China. Water Resour. Manage., 29: 2677-2695.
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Tyagi, J.V., S.K. Mishra, R. Singh and V.P. Singh, 2008. SCS-CN based time-distributed sediment yield model. J. Hydrol., 352: 388-403.
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Tyagi, J.V., S.K. Mishra, R. Singh and V.P. Singh, 2009. Reply to comments on SCS-CN based time distributed sediment yield model by Tyagi, et al. J. Hydrol., 367: 295-296.
Uddameri, V. and V.P. Singh, 2009. The U.S. Experience on Water Supply and Sanitation: The Interaction between Public Policy and Management. In: Water and Sanitation Services: Public Policy and Management, Castro, J.E. and L. Heller (Eds.). Chapter 16, Earthscan, UK., ISBN-13: 978-1844076567, pp: 261-274.
Uddameri, V. and V.P. Singh, 2012. The Competition between Environmental, Urban and Rural Groundwater Demands and the Impacts on Agriculture in Edwards Aquifer Area, Texas. In: Soil Water and Agronomic Productivity, Lall, R. and B.A. Stewart (Eds.). Chapter 5, CRC Press, Boca Raton, Florida, ISBN: 9781439850794, pp: 117-129.
Wang, D., V.P. Singh and Y. Zhu, 2007. Hybrid fuzzy and optimal modeling for water quality evaluation. Water Resour. Res., Vol. 43. 10.1029/2006WR005490.
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Wang, D., V.P. Singh, X. Shang, H. Ding and J. Wu et al., 2014. Sample entropy‐based adaptive wavelet de‐noising approach for meteorologic and hydrologic time series. J. Geophys. Res.: Atmos., 119: 8726-8740.
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Wang, D., V.P. Singh, Y.S. Zhu and J.C. Wu, 2009. Stochastic observation error and uncertainty in water quality evaluation. Adv. Water Resour., 32: 1526-1534.
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Wang, G.T., S. Chen, J. Boll and V.P. Singh, 2003. Nonlinear convection-diffusion equation with mixing-cell method for channel flood routing. J. Hydrol. Eng., 8: 259-265.
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Weglarczyk, S., W.G. Strupczewski and V.P. Singh, 2002. A note on the applicability of log-Gumbel and log-logistic probability distributions in hydrological analyses: II. Assumed pdf. Hydrol. Sci. J., 47: 123-137.
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Weglarczyk, S., W.G. Strupczewski and V.P. Singh, 2005. Three-parameter discontinuous distributions for hydrological samples with zero values. Hydrol. Process., 19: 2899-2914.
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Xiao, M., Q. Zhang and V.P. Singh, 2014. Influences of ENSO, NAO, IOD and PDO on seasonal precipitation regimes in the Yangtze river basin, China. Int. J. Climatol. 10.1002/joc.4228.
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Xiao, M., Q. Zhang, V.P. Singh and X. Chen, 2013. Regionalization-based spatiotemporal variations of precipitation regimes across China. Theor. Applied Climatol., 114: 203-212.
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Xu, C.Y. and V.P. Singh, 2001. Evaluation and generalization of temperature based methods for calculating evaporation. Hydrol. Proc., 15: 305-319.
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Xu, C.Y. and V.P. Singh, 2002. Cross comparison of empirical equations for calculating potential evapotranspiration with data from Switzerland. Water Resour. Manage., 16: 197-219.
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Xu, C.Y. and V.P. Singh, 2004. Review on regional water resources assessment models under stationary and changing climate. Water Resour. Manage., 18: 591-612.
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Xu, C.Y. and V.P. Singh, 2005. Evaluation of three complementary relationship evapotranspiration models by water balance approach to estimate actual regional evapotranspiration in different climatic regions. J. Hydrol., 308: 105-121.
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Xu, C.Y., L. Gong, T. Jiang, D. Chen and V.P. Singh, 2006. Analysis of spatial distribution and temporal trend of reference evapotranspiration and pan evaporation in Changjiang (Yangtze River) catchment. J. Hydrol., 327: 81-93.
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Xu, C.Y., L. Tunemar, Y.D. Chen and V.P. Singh, 2006. Evaluation of seasonal and spatial variations of lumped water balance model sensitivity to precipitation data errors. J. Hydrol., 324: 80-93.
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Xu, C.Y., V.P. Singh, Y.D. Chen and D. Chen, 2008. Evaporation and Evapotranspiration. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 229-276.
Yang, F.G., Y. Liang, V.P. Singh, W.S. Wang and X.Q. Zhou et al., 2014. Debris flow hazard assessment using set pair analysis models: Take Beichuan county as an example. J. Mountain Sci., 11: 1015-1022.
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Yang, T., C.Y. Xu, Q. Zhang, Z. Yu, A. Baron, X. Wang and V.P. Singh, 2012. DEM-based numerical modelling of runoff and soil erosion processes in the hilly-gully loess regions. Stochastic Environ. Res. Risk Assess., 26: 581-598.
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Yang, T., C.Y. Xu, X. Chen, V.P. Singh, Q.X. Shao, Z.C. Hao and X. Tao, 2010. Assessing the impact of human activities on hydrological and sediment changes (1953-2000) in nine major catchments of the Loess Plateau, China. River Res. Applic., 26: 322-340.
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Yildrim, G. and V.P. Singh, 2010. A mathcad procedure for commercial pipeline hydraulic design considering local energy losses. Adv. Eng. Software, 41: 489-496.
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Yilmaz, L., V.P. Singh, S.K. Mishra, D.D. Adrian and J.J. Sansalone, 2002. Experimental study on bed shear stress and sediment transport in a meandering laboratory channel. Int. J. Sedimentation Res., 17: 1-19.
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Yilmaz, L., V.P. Singh, S.K. Mishra, D.D. Adrian and J.J. Sansalone, 2002. Investigation of the meander planform development in a laboratory channel. Water Eng. Res., 3: 177-193.
Yoo, D.H. and V.P. Singh, 2004. Explicit design of commercial pipes with no secondary losses. J. Irrig. Drainage Eng., 130: 437-440.
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Yoo, D.H. and V.P. Singh, 2005. Two methods for the computation of commercial pipe friction factors. J. Hydraulic Eng., 131: 694-704.
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Yoo, D.H. and V.P. Singh, 2010. Explicit design of commercial pipes with secondary losses. J. Hydro-Environ. Res., 4: 37-45.
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Yun, R. and V.P. Singh, 2008. Multiple duration limited water level and dynamic limited water level for flood control, with implications on water supply. J. Hydrol., 354: 160-170.
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Yun, R., V.P. Singh and Z. Dong, 2010. Long-term stochastic reservoir operation using a noisy genetic algorithm. Water Resour. Manage., 24: 3159-3172.
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Zadeh, M.R., S. Amin, D. Khalili and V.P. Singh, 2010. Daily outflow prediction by multi layer perceptron with logistic sigmoid and tangent sigmoid activation functions. Water Resour. Manage., 24: 2673-2688.
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Zhang, J., H. Wang and V.P. Singh, 2011. Information Entropy of a Rainfall Network in China. In: Modelling Risk Management for Resources and Development, Wu, D.D. and Y. Zhu (Eds.). Chapter 2, Springer, Berlin, ISBN: 9783642183874, pp: 11-20.
Zhang, J., Z.X. Guo, S.Y. Cao and V.P. Singh, 2013. Scale model for the confluent area of debris flow and main river: A case study of the Wenjia Gully. Nat. Hazards Earth Syst. Sci., 13: 3083-3093.
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Zhang, L. and V.P. Singh, 2005. Frequency analysis of flood damage. J. Hydrol. Eng., 10: 100-109.
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Zhang, L. and V.P. Singh, 2006. Bivariate flood frequency analysis using the copula method. J. Hydrol. Eng., 11: 150-164.
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Zhang, L. and V.P. Singh, 2007. Bivariate rainfall frequency distributions using Archimedean Copulas. J. Hydrol., 332: 93-109.
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Zhang, L. and V.P. Singh, 2007. Gumbel-hougaard copula for trivariate rainfall frequency analysis. J. Hydrol. Eng., 12: 409-419.
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Zhang, L. and V.P. Singh, 2007. Trivariate flood frequency analysis using the Gumbel-Hougaard copula. J. Hydrol. Eng., 12: 431-439.
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Zhang, L. and V.P. Singh, 2008. Bivariate flood frequency analysis using the copula method-closure. J. Hydrol. Eng., 13: 287-287.
Zhang, L. and V.P. Singh, 2008. Gumbel-Hougaard copula for trivariate rainfall frequency analysis-closure. J. Hydrol. Eng., 13: 994-994.
Zhang, L. and V.P. Singh, 2012. Bivariate rainfall and runoff analysis using entropy and copula theories. Entropy, 14: 1784-1812.
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Zhang, L. and V.P. Singh, 2014. Trivariate flood frequency analysis using discharge time series with possible different lengths: Cuyahoga river case study. J. Hydrol. Eng., Vol. 19. 10.1061/(ASCE)HE.1943-5584.0001003.
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Zhang, L., V.P. Singh and J.F. Cruise, 2008. SAC-SMA Model Incorporating Kalman Filter. In: Hydrology and Hydraulics, Singh, V.P. (Ed.). Water Resources Publications, Highlands Ranch, Colorado, pp: 385-414.
Zhang, Q., C.Y. Xu, V.P. Singh and T. Yang, 2009. Multiscale variability of sediment load and streamflow of the lower Yangtze river basin: Possible causes and implications. J. Hydrol., 368: 96-104.
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Zhang, Q., J. Li and V.P. Singh, 2012. Application of Archimedean copulas in the analysis of the precipitation extremes: Effects of precipitation changes. Theor. Applied Climatol., 107: 255-264.
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Zhang, Q., J. Li, V.P. Singh and C.Y. Xu, 2013. Copula‐based spatio‐temporal patterns of precipitation extremes in China. Int. J. Climatol., 33: 1140-1152.
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Zhang, Q., J. Li, V.P. Singh and M. Xiao, 2013. Spatio-temporal relations between temperature and precipitation regimes: Implications for temperature-induced changes in the hydrological cycle. Global Planetary Change, 111: 57-76.
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Zhang, Q., J. Li, V.P. Singh and Y. Bai, 2012. SPI-based evaluation of drought events in Xinjiang, China. Nat. Hazards, 64: 481-492.
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Zhang, Q., J. Li, V.P. Singh, C.Y. Xu and J. Deng, 2013. Influence of ENSO on precipitation in the East river basin, south China. J. Geophys. Res.: Atmos., 118: 2207-2219.
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Zhang, Q., J. Li, V.P. Singh, C.Y. Xu and Y. Bai, 2012. Changing structure of the precipitation process during 1960-2005 in the Xinjiang, China. Theor. Applied Climatol., 110: 229-244.
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Zhang, Q., J. Peng, C.Y. Xu and V.P. Singh, 2014. Spatiotemporal variations of precipitation regimes across Yangtze river basin, China. Theor. Applied Climatol., 115: 703-712.
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Zhang, Q., J. Peng, V.P. Singh, J. Li and Y.D. Chen, 2014. Spatio-temporal variations of precipitation in arid and semiarid regions of China: The Yellow River basin as a case study. Global Planetary Change, 114: 38-49.
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Zhang, Q., K. Li, V.P. Singh, X. Chen and J. Li, 2013. Changes in stage-flow relation of the East river, the Pearl river basin: Causes and implications. Hydrol. Res., 44: 737-746.
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Zhang, Q., M. Xiao and V.P. Singh, 2015. Uncertainty evaluation of copula analysis of hydrological droughts in the East River basin, China. Global Planetary Change, 129: 1-9.
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Zhang, Q., M. Xiao, C.L. Liu and V.P. Singh, 2014. Reservoir-induced hydrological alterations and environmental flow variation in the East River, the Pearl River basin, China. Stochastic Environ. Res. Risk Assess., 28: 2119-2131.
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Zhang, Q., M. Xiao, J. Li, V.P. Singh and Z. Wang, 2014. Topography-based spatial patterns of precipitation extremes in the Poyang Lake basin, China: Changing properties and causes. J. Hydrol., 512: 229-239.
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Zhang, Q., M. Xiao, V.P. Singh and X. Chen, 2013. Copula-based risk evaluation of droughts across the Pearl River basin, China. Theor. Applied Climatol., 111: 119-131.
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Zhang, Q., M. Xiao, V.P. Singh and X. Chen, 2013. Copula-based risk evaluation of hydrological droughts in the east river basin, China. Stochastic Environ. Res. Risk Assess., 27: 1397-1406.
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Zhang, Q., M. Xiao, V.P. Singh, C.Y. Xu and J. Li, 2015. Variations of annual and seasonal runoff in Guangdong province, south China: Spatiotemporal patterns and possible causes. Meteorol. Atmos. Phys., 127: 273-288.
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Zhang, Q., P. Sun, J. Li, V.P. Singh and J. Liu, 2015. Spatiotemporal properties of droughts and related impacts on agriculture in Xinjiang, China. Int. J. Climatol., 35: 1254-1266.
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Zhang, Q., P. Sun, V.P. Singh and X. Chen, 2012. Spatial-temporal precipitation changes (1956-2000) and their implications for agriculture in China. Global Planetary Change, 82-83: 86-95.
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Zhang, Q., T. Qi, J. Li, V.P. Singh and Z. Wang, 2015. Spatiotemporal variations of pan evaporation in China during 1960-2005: Changing patterns and causes. Int. J. Climatol., 35: 903-912.
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Zhang, Q., T. Qi, V.P. Singh, Y.D. Chen and M. Xio, 2015. Regional frequency analysis of droughts in China: A multivariate perspective. Water Resour. Manage., 29: 1767-1787.
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Zhang, Q., V.P. Singh and J. Li, 2013. Eco-hydrological requirements in arid and semi-arid regions: The Yellow river in China as a case study. J. Hydrol. Eng., 18: 689-697.
Zhang, Q., V.P. Singh and X. Chen, 2012. Influence of three gorges dam on streamflow and sediment load of the middle Yangtze river, China. Stochastic Environ. Res. Risk Anal., 26: 596-600.
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Zhang, Q., V.P. Singh, C.Y. Xu and X. Chen, 2013. Abrupt behaviours of streamflow and sediment load variations of the Yangtze river basin, China. Hydrol. Process., 27: 444-452.
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Zhang, Q., V.P. Singh, J. Li and X. Chen, 2011. Analysis of the periods of maximum consecutive wet days in China. J. Geophys. Res., Vol. 116. 10.1029/2011JD016088.
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Zhang, Q., V.P. Singh, J. Li, F. Jiang and Y. Bai, 2012. Spatio-temporal variations of precipitation extremes in Xinjiang, China. J. Hydrol., 434-435: 7-18.
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Zhang, Q., V.P. Singh, J. Peng, Y.D. Chen and J. Li, 2012. Spatial-temporal changes of precipitation structure across the Pearl River basin, China. J. Hydrol., 440-441: 113-122.
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Zhang, Q., V.P. Singh, K. Li and J. Li, 2014. Trend, periodicity and abrupt change in streamflow of the East river, the Pearl river basin. Hydrol. Process., 28: 305-314.
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Zhang, Q., V.P. Singh, M. Xiao and J. Li, 2012. Regionalization and spatial changing properties of droughts across the pearl river basin, China. J. Hydrol., 472-473: 355-366.
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Zhang, Q., V.P. Singh, P. Sun, X. Chen, Z. Zhang and J. Li, 2011. Precipitation and streamflow changes in China: Changing patterns, causes and implications. J. Hydrol., 410: 204-216.
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Zhang, Q., Y. Zhou and V.P. Singh, 2014. Detrending methods for fluctuation analysis in hydrology: Amendments and comparisons of methodologies. Hydrol. Process., 28: 753-763.
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Zhang, Q., Y. Zhou, V.P. Singh and J. Li, 2012. Scaling and clustering effects of extreme precipitation distributions. J. Hydrol., 454-455: 187-194.
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Zhang, Q., Y. Zhou, V.P. Singh and X. Chen, 2012. The influence of dam and lakes on the Yangtze River streamflow: Long‐range correlation and complexity analyses. Hydrol. Process., 26: 436-444.
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Zhang, Q., Y. Zhou, V.P. Singh and Y.D. Chen, 2011. Comparison of detrending methods for fluctuation analysis in hydrology. J. Hydrol., 400: 121-132.
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Zhang, Z., C.Y. Xu, M.E.H. El-Tahir, J. Cao and V.P. Singh, 2012. Spatial and temporal variation of precipitation in Sudan and their possible causes during 1948-2005. Stochastic Environ. Res. Risk Assess., 26: 429-441.
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Zhou, Y., Q. Zhang and V.P. Singh, 2014. Fractal-based evaluation of the effect of water reservoirs on hydrological processes: The dams in the Yangtze River as a case study. Stochastic Environ. Res. Risk Assess., 28: 263-279.
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Zhou, Y., Q. Zhang, V.P. Singh and M. Xio, 2015. General correlation analysis: A new algorithm and application. Stochastic Environ. Res. Risk Anal., 29: 665-677.
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