Flood Frequency Analysis in the United States: Time to Update
Publication: Journal of Hydrologic Engineering
Volume 13, Issue 4
1084-0699(2008)13:4(199)/asset/b9064579-e49b-443d-ae93-dab08506c258/assets/(asce)1084-0699(2008)13:4(199).fp.png)
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Acknowledgments
The authors appreciate the valuable comments and encouragement provided by Vijay Singh (Editor, Journal of Hydrologic Engineering), John England (USBR), Timothy Cohn (USGS), Will Thomas (Michael Baker, Jr., Inc.), and Beth Faber (U.S. Army Corps of Engineers).
References
Beard, L. R. (1987). “Discussion of ‘Relative accuracy of log Pearson III procedures’ by J. R. Wallis and E. F. Wood.” J. Hydraul. Eng., 113(9), 1205–1206.
Bobée, B., and Ashkar, F. (1991). The gamma distribution and derived distributions applied in hydrology, Water Resources Press, Littleton, Colo.
Chowdhury, J. U., and Stedinger, J. R. (1991). “Confidence interval for design floods with estimated skew coefficient.” J. Hydraul. Eng., 117(7), 811–831.
Cohn, T. A., Lane, W. L., and Baier, W. G. (1997). “An algorithm for computing moments-based flood quantile estimates when historical flood information is available.” Water Resour. Res., 33(9), 2089–2096.
Cohn, T. A., Lane, W. L., and Stedinger, J. R. (2001). “Confidence intervals for EMA flood quantile estimates.” Water Resour. Res., 37(6), 1695–1706.
England, J. F., Jr., and Cohn, T. A. (2007). “Scientific and practical considerations related to revising Bulletin 17B: The case for improved treatment of historical information and low outliers.” World Environmental & Water Resources Conf.: Restoring Our Natural Habitat, K. C. Kabbes, ed., Tampa, Fla., paper 40927–2565.
England, J. F., Jr., Jarrett, R. D., and Salas, J. D. (2003a). “Data-based comparisons of moments estimators using historical and pale of flood data.” J. Hydrol. Eng., 278(1–4), 172–196.
England, J. F., Jr., Salas, J. D., and Jarrett, R. D. (2003b). “Comparisons of two moments-based estimators that utilize historical and pale of flood data for the log Pearson type III distribution.” Water Resour. Res., 39(9), 1243.
Garbrecht, J. D., and Piechota, T. C. (2006). Climate variability and climate change, climate variations, climate change, and water resources engineering, ASCE, Reston, Va.
Griffis, V. W., and Stedinger, J. R. (2007a). “Evolution of flood frequency analysis with Bulletin 17.” J. Hydrol. Eng., 12(3), 283–297.
Griffis, V. W., and Stedinger, J. R. (2007b). “The log-Pearson type 3 distribution and its application in flood frequency analysis. 1: Distribution characteristics.” J. Hydrol. Eng., 12(5), 482–491.
Griffis, V. W., and Stedinger, J. R. (2007c). “The log-Pearson type 3 distribution and its application in flood frequency analysis. 2: Parameter estimation methods.” J. Hydrol. Eng., 12(5), 492–500.
Griffis, V. W., and Stedinger, J. R. (2007d). “The log-Pearson type 3 distribution and its application in flood frequency analysis. 3: Sample skew and weighted skew estimators, submitted.” J. Hydrol. Eng., submitted.
Griffis, V. W., and Stedinger, J. R. (2007e). “Incorporating climate change and variability into Bulletin 17B LP3 model.” World Water and Environmental Resources Conf., American Society of Civil Engineers, paper 40927–2320.
Griffis, V. W., Stedinger, J. R., and Cohn, T. A. (2004). “LP3 quantile estimators with regional skew information and low outlier adjustments.” Water Resour. Res., 40, W07503.
Gruber, A. M., Reis, D. S., Jr., and Stedinger, J. R. (2007). “Models of regional skew based on Bayesian GLS regression.” World Environmental & Water Resources Conf.: Restoring our Natural Habitat, K. C. Kabbes, ed., Tampa, Fla., paper 40927–3285.
Hardison, C. H. (1974). “Generalized skew coefficients of annual floods in the United States and their application.” Water Resour. Res., 10(4), 745–751.
Hirsch, R. M., and Stedinger, J. R. (1987). “Plotting positions for historical floods and their precision.” Water Resour. Res., 23(4), 715–727.
Hosking, J. R. M., and Wallis, J. R. (1997). Regional frequency analysis: an approach based on l-moments, Cambridge University Press, Cambridge, U.K.
Interagency Committee on Water Data (IACWD). (1982). Guidelines for determining flood flow frequency: Bulletin 17B (revised and corrected), Hydrol. Subcomm., Washington, D.C., 28.
Interagency Committee on Water Resources (ICWR). (1966). Methods of flow frequency analysis. Bulletin 13, Hydrol. Subcomm., U.S. Government Printing Office, Washington, D.C.
Interagency Floodplain Management Review Committee (IFMRC). (1994). Sharing the Challenge: Floodplain Management into the 21st Century (Galloway Report), U.S. Government Printing Office, Washington, D.C.
Landwehr, J. M., Matalas, N. C., and Wallis, J. R. (1978). “Some comparisons of flood statistics in real and log space.” Water Resour. Res., 14(5), 902–920.
Landwehr, J. M., Tasker, G. D., and Jarrett, R. D. (1987). “ ‘Discussion of relative accuracy of log Pearson III procedures’ by J. R. Wallis and E. F. Wood.” J. Hydraul. Eng., 113(9), 1206–1210.
McCuen, R. H. (2001). “Generalized flood skew: Map versus watershed skew.” J. Hydrol. Eng., 6(4), 293–299.
Pope, B. F., Tasker, G. D., and Robbins, J. C. (2001). “Estimating the magnitude and frequency of floods in rural basins of North Carolina—Revised.” Water-Resources Investigations Report 01–4207, U.S. Geological Survey, Reston, Va., 44.
Potter, K. W., and Lettenmaier, D. P. (1990). “A comparison of regional flood frequency estimation methods using a resampling method.” Water Resour. Res., 26(3), 415–424.
Rasmussen, P. P., and Perry, C. A. (2000). “Estimation of peak streamflows for unregulated rural streams in Kansas.” Water-Resources Investigation Report 00–4079, U. S. Geological Survey, Reston, Va., 33.
Reis, D. S., Jr., Stedinger, J. R., and Martins, E. S. (2005). “Bayesian generalized least squares regression with application to log Pearson type 3 regional skew estimation.” Water Resour. Res., 41, W10419.
Stedinger, J. R. (1980). “Fitting log normal distributions to hydrologic data.” Water Resour. Res., 16(3), 481–490.
Stedinger, J. R. (1983). “Confidence intervals for design events.” J. Hydraul. Eng., 109(1), 13–27.
Stedinger, J. R. (2005). USGS regional regression flood studies, letter to U.S. Geological Survey.
Stedinger, J. R., and Griffis, V. W. (2006). “Evolution of Bulletin 17B for flood frequency analysis in the United States.” World Environmental and Water Resources Conf.: Examining the Confluence of Environmental Concerns and Water Concerns, R. Graham, ed., Omaha, Neb., ASCE, paper 0856–14956.
Stedinger, J. R., and Lu, L. (1995). “Appraisal of regional and index flood quantile estimators.” Stochastic Hydrol. Hydraul., 9(1), 49–75.
Tasker, G. D., and Stedinger, J. R. (1986). “Estimating generalized skew with weighted least squares regression.” J. Water Resour. Plann. Manage., 112(2), 225–237.
Thomas, W. O., Jr. (1985). “A uniform technique for flood frequency analysis.” J. Water Resour. Plann. Manage., 111(3), 321–337.
U.S. Geological Survey (USGS). (2006). Flood hazards—A national threat, fact sheet 2006–3026, U.S. Department of the Interior, Washington, D.C.
Wallis, J. R., and Wood, E. F. (1985). “Relative accuracy of log Pearson III procedures.” J. Hydraul. Eng., 111, 1043–1056.
Water Resources Council (WRC). (1967). A uniform technique for determining flood flow frequencies. Bulletin 15, Hydrol. Comm., Washington, D.C.
Water Resources Council (WRC). (1976). Guidelines for determining flood flow frequency: Bulletin 17A, Hydrol. Comm., Washington, D.C.
Water Resources Council (WRC). (1977). Guidelines for determining flood flow frequency: Bulletin 17A, Hydrol. Comm., Washington, D.C.
Information & Authors
Information
Published In
Journal of Hydrologic Engineering
Volume 13 • Issue 4 • April 2008
Pages: 199 - 204
Copyright
© 2008 ASCE.
History
Received: Aug 28, 2007
Accepted: Sep 11, 2007
Published online: Apr 1, 2008
Published in print: Apr 2008
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