Abstract
This research study focused on the hypothesis that extreme drought and high streamflow events come from different independent populations with different probability distributions which need to be studied separately, rather than considering the streamflow population as a whole. The inability of traditional streamflow generator models to consistently reproduce the frequency of occurrence of severe droughts observed in the historical record has been questioned by many researchers. Our study focused on the development of astochastic event generator model which would be capable of doing so. This was accomplished in a two-step process by first generating the drought event, and then deriving the streamflows which comprised that event. The model considered for this analysis was an alternating renewal-reward procedure that cycles between eventon andoff times, and is representative of drought or high streamflow event duration. The reward gained while the event ison oroff represents drought severity or high streamflow surplus. Geometric and gamma distributions were considered for drought duration and deficit respectively. Model validation was performed using calculated required capacities from the sequent peak algorithm.
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References
Askew, A. J.; Yeh, W. W.; Hall, W. A. 1971: A comparative study of critical drought simulation. Water Resources Research 7 (1), 52–62
Beard, L. R. 1965: Use of interrelated records to simulate streamflow. Journal of Hydraulics Division ASCE 91 (HY 5)
Benson, M. A.; Matalas, N. C. 1967: Synthetic hydrology based on regional parameters. Water Resources Research 3 (4), 931–935
Bras, R. L.; Rodrigues-Iturbe, I. 1985: Random functions and hydrology. Addison-Wesley, Reading, Massachusetts
Burges, S. J.; Lettenmaier, D. P. 1981: Reliability measures for water supply reservoirs and the significance of long term persistence. In: Pro. Int. Symp. Real Time Operation of Hydrosystems, Waterloo, Ontario
Campbell, J. C. 1971: Prediction of seasonal low streamflow quantities. Water Resources Research Institute, Oregon State University, Corvallis, Oregon
Carlson, R.F.; MacCormick, A. J. A.; Watts, D. G. 1970: Application of linear random models for four annual streamflow series. Water Resources Research 6 (4)
Chang, M.; Boyer, D. G. 1977: Estimates of low flows using watershed and climatic parameters. Water Resources Research 13 (6), 997–1001
Dracup, J. A.; Lee, K. S.; Paulson, E.G. 1980a: On the definition of droughts. Water Resources Research 16 (2), 297–302
Dracup, J. A.; Lee, K. S.; Paulson, E.G. 1980b: On the statistical characteristics of drought events. Water Resources Research 16 (2), 289–296
Dracup, J. A.; Kendall, D. R. 1987: Frequency analysis of potential drought occurrences on the Rhone, Po, and Danube Rivers. Proceedings, International Symposium on Natural Disasters, Rome, Italy, June
Dracup, J. A.; Kendall, D. R. 1990: Floods and droughts. In: Waggoner, P. (Ed.) Climate Change and U.S. Water Resources, Chapter 11. John Wiley and Sons, New York, June 1989
Feller, W. 1951: The asymptotic distribution of the range of sums of independent random variables. Annals of Mathematical Statistics 22, 427
Fiering, M. B. 1963: The nature of the storage-yield relationship. Symposium on Streamflow Regulation for Quality Control, U.S. Public Health Service, Cincinnati
Grygier, J. C.; Stedinger, J. R. 1987: Spigot: A synthetic flow generation software package. Cornell University, Ithaca, New York
Grygier, J. C.; Stedinger, J. R. 1988: Condensed disaggregation procedures and conservation corrections for stochastic hydrology. Water Resources Research 24 (10)
Gupta, V. K.; Duckstein, L. 1975: A stochastic analysis of extreme droughts. Water Resources Research 11 (2), 221–228
Hipel, K. W. 1975: Contemporary Box-Jenkins modelling in hydrology. PhD Thesis, University of Waterloo
Hipel, K. W.; McLeod, A. I. 1978: Preservation of the rescaled adjusted range 2. Simulation studies using Box-Jenkins models. Water Resources Research 14 (3)
Hoshi, K.; Burges, S. J.; Yamoka, I. 1978: Reservior design capacities for various seasonal operational hydrologic models. Proceedings, Japanese Society of Civil Engineers 273
Huff, F. A.; Changnon, S. A. 1964: Relation between precipitation, drought, and low streamflow. International Association of Scientific Hydrology, Publication 63, pp. 167–180
Hurst, H. E. 1951: Long-term storage capacity of reservoirs. Transactions, ASCE 116, 770–808
Jackson, B. B. 1975: Markov mixture models for drought lengths. Water Resources Research 11 (1), 64–74
Jettmar, R. U.; Young, G. K. 1975: Hydrologic estimation and economic regret. Water Resources Research 11 (5)
Kendall, D. R.; Dracup, J. A. 1988a: Hydrologic response of floods and droughts to climatic change. Transactions, American Geophysical Union 69 (44), November 1
Kendall, D. R.; Dracup, J. A. 1988b: A new stochastic model for the generation of drought events. Transactions, American Geophysical Union, 69 (44), November 1
Kendall, D. R.; Dracup, J. A. 1991: A comparison of index-sequential and AR(1) generated hydrologic sequences. Journal of Hydrology 122, 335–352
Klemes, V. 1974: The hurst phenomenon: A puzzle? Water Resources Research 10 (4)
Klemes, V. 1979: The unreliability of reliability estimates of storage reservior performance based on short streamflow records. In: McBean, E. A.; Hipel, K. W.; Unny, T. E. (Eds.) Reliability in Resources Management. Water Resources Publications, Littleton, Colorado
Klemes, V. 1983: Climatic change and the planning of water resource systems. Presented at 6th Canadian Hydrotechnical Conference, CSCE, Ottawa, pp. 187–207
Klemes, V.; Bulu, A. 1979: Limited confidence in confidence limits derived by operational stochastic hydrologic models. Journal of Hydrology 42
Klemes, V.; Srikathan, R.; McMahon, T. A. 1981: Long memory flow models in reservoir analysis: What is their practical value? Water Resources Research 17 (3)
Lane, W. L. 1979: Applied stochastic techniques: User mannual (first revision). Division of Planning and Technical Services. Water and Power Resour. Serv., Denver
Lee, K. S.; Dracup, J. A. 1982: A stochastic frequency analysis of multiyear droughts. Prepared for the National Science Foundation and the University of California Water Resources Center, UCLA-ENG-82-39
Lee, K. S.; Sadeghipour, J.; Dracup, J. A. 1986: An approach for frequency analysis of multiyear drought duration. Water Resources Research 22 (5)
McLeod, A. I.; Hipel, K. W. 1978: Preservation of the rescaled adjusted range 1. A reassessment of the Hurst phenomenon. Water Resources Research 14 (3)
Mandelbrot, B. B. 1971: A fast fractional Guassian noise generator. Water Resources Research 7 (3)
Mandelbrot, B. B.; Wallis, J. R. 1968: Noah, Joseph and operational hydrology. Water Resources Research 4, 909–918
Mandelbrot, B. B.; Wallis, J. R. 1969: Compute experiments with fractional Gaussian noises, Part 1: Averages and variances. Water Resources Research 5 (1)
Mejia, J. M.; Rodriguez-Iturbe, I.; Dawdy, D. R. 1972: Streamflow simulation 2: The broken line process as a potential model for hydrologic simulation. Water Resources Research 8 (4)
Mejia, J. M.; Rousselle, J. 1976: Disaggregation models in hydrology revisited. Water Resources Research 12 (2), 185–186
Millan, J. 1972: Statistical properties of runs as applied to hydrologic drought. In: Floods and droughts. Colorado State University, Fort Collins, Colorado, Water Resources Publications
Millan, J.; Yevjevich, V. M. 1971: Probabilities of observed droughts. Hydrology Paper Number 50, Colorado State University, Fort Collins, Colorado
O'Connell, P. E. 1974: Stochastic modeling of long-term persistence in streamflow sequences. PhD Thesis, University of London
Osborn, J. F. 1974: Determining streamflow from geomorphic parameters. Journal of Irrigation and Drainage Division, ASCE II, 455–475
Phatarford, R. M. 1977: The sampling error of storage size. Water Resources Research 13 (6)
Rodriguez-Iturbe, I. 1969: Estimation of statistical parameters of annual river flows. Water Resources Research 5 (6)
Ross, S. M. 1970: Applied probability models with optimization applications. Holden-Day, San Fransisco
Salas, J. D.; Boes, D. C.; Yevjevich, V.; Pegram, G. S. 1979: Hurst phenomenon as a pre-asymptotic behavior. Journal of Hydrology 44 (1)
Salas, J. D.; Deller, J. W.; Yevjevich, V.; Lane, W. L. 1980: Applied modeling of Hydrologic time series. Water Resources Publications, Littleton, Colorado
Sen, Z. 1980: Statistical analysis of hydrologic critical droughts. Journal of Hydraulics Division, ASCE 106, 99–115
Stedinger, J. R. 1980: Comment on limited confidence in confidence limits derived by operational stochastic hydrologic models (Klemes and Bulu, 1979), Journal of Hydrology 43
Stedinger, J. R. 1981: Estimating Correlations in multivariate streamflow models. Water Resources Research 17 (1)
Stedinger, J. R.; Taylor, M. R. 1982a: Synthetic streamflow generation, Part 1. Model verification and validation. Water Resources Research 18 (4), 909–918
Stedinger, J. R.; Taylor, M. R. 1982b: Synthetic streamflow generation, Part 2. Parameter uncertainty. Water Resources Research 18 (4), 919–924
Stedinger, J. R.; Pei, D.; Cohn, T. 1985b: A condensed disaggregation model for incorporating parameter uncertainty into monthly reservoir simulations. Water Resources Research 21 (5)
Todorovic, P. 1978: Stochastic models of floods. Water Resources Research 14 (2), 345–356
Tschannerl, G. 1971: Designing reservoir with short streamflow records. Water Resources Research 7 (4)
Valencia, D.; Schaake, J. C. 1973: Disaggregation processes in stochastic hydrology. Water Resources Research 9 (3)
Vicens, G. J.; Rodriguez-Iturbe, I.; Schaake, J. C. Jr. 1975: Bayesian generation of synthetic streamflows. Water Resources Research 11 (6)
Vogel, R. M.; Stedinger, J. R. 1988: The value of stochastic streamflow models in overyear reservoir design applications. Water Resources Research 24 (9)
Wallis, J. R.; Matalas, N. C. 1970: Small sample size properities of H and K estimators of the Hurst coefficient h. Water Resources Research 6 (6)
Wallis, J. R.; O'Connell, P. E. 1973: Firm reservoir yield-how reliable are historic hydrologic records. Hydrologic Sciences Bulletin 18 (3)
Wallis, J. R.; O'Connell, P. E. 1972: Small sample estimation of ρ. Water Resources Research 8 (3)
Whipple, W. Jr 1966: Regional drought frequency analysis. Journal of Irrigation and Drainage, ASCE 92 (2), 11–31
Wood, E. F. 1978: Analysing hydrologic uncertainty and its impact upon decisionmaking in water resources. Adv. Water Resources 1 (5)
Yevjevich, V. M. 1967: Objective approach to definitions and investigations of continental droughts. Hydrology Paper 23, Colorado State University, Fort Collins, Colorado
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Kendall, D.R., Dracup, J.A. On the generation of drought events using an alternating renewal-reward model. Stochastic Hydrol Hydraul 6, 55–68 (1992). https://doi.org/10.1007/BF01581675
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DOI: https://doi.org/10.1007/BF01581675