Mapping of Liquefaction Severity Index
Publication: Journal of Geotechnical Engineering
Volume 113, Issue 11
Abstract
A technique is developed for compiling liquefaction hazard maps by mapping a parameter termed liquefaction severity index (LSI). LSI, a measure of ground failure displacement, is based on the displacement of lateral spreads on gently‐sloping late Holocene fluvial deposits such as floodplains and deltas. By selecting a specific geologic environment, LSI is normalized with respect to site conditions. LSIs are evaluated for several earthquakes in the western United States, and an equation is developed between LSI, earthquake magnitude, and distance from the seismic energy source. This equation and a model of seismic energy sources is used with a published seismic risk algorithm to compile probabilistic LSI maps for southern California. The maps show contours of LSI with 90% probability of nonexceedance in periods of 10, 50, and 250 years. LSI maps are useful for determining the relative liquefaction hazard and provide an index of possible maximum ground displacement.
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References
1.
Algermissen, S. T., Perkins, D. M., Thenhaus, P. C., Hanson, S. L., and Bender, B. L. (1982). “Probabilistic estimates of maximum acceleration and velocity in rock in the contiguous United States.” Open‐File Report 82‐1033, U.S. Geological Survey, Denver, Colo.
2.
Anderson, L. R., Keaton, J. R., Aubry, K., and Ellis, S. J. (1982). “Liquefaction map for Davis County, Utah,” final report to the U.S. Geological Survey by Utah State University, Contract No. 14‐08‐0001‐19127.
3.
Anderson, L. R., Keaton, J. R., Spitzley, J. E., and Allen, A. C. (1986). “Liquefaction potential map for Salt Lake County, Utah,” final report to the U.S. Geological Survey by Utah State University, Contract No. 14‐08‐0001‐19910.
4.
Cornell, C. A. (1968). “Engineering seismic risk analysis.” Bull. Seismol. Soc. Am., 58(5), 1583–1606.
5.
Morton, D. M., and Campbell, R. C. (1973). “Some features produced by the earthquake of 21 February 1973, near Point Mugu, California.” California Geology, 26(12), 287–290.
6.
Coulter, H. W., and Miglaccio, R. R. (1966). “Effects of the earthquake of March 27, 1964 at Valdez, Alaska.” Professional Paper 542‐C, U.S. Geological Survey, Washington, D.C.
7.
Foster, H. L., and Karlstrom, Y. N. V. (1967). “Ground breakage and associated effects in the Cook Inlet area, Alaska, resulting from the March 27, 1964, earthquake.” Professional Paper 543‐F, U.S. Geological Survey, Washington, D.C.
8.
Joyner, W. B., and Boore, D. M. (1981). “Peak horizontal acceleration and velocity from strong‐motion records including records from the 1979 Imperial Valley, California, earthquake.” Bull. Seismol. Soc. Am., 71(6), 2011–2038.
9.
Kachadoorian, R. (1968). “Effects of the earthquake of March 27, 1964, on the Alaska highway system.” Professional Paper 545‐C, U.S. Geological Survey, Washington, D.C.
10.
Kanamori, H. (1977). “The energy release in great earthquakes.” J. Geophys. Res., 82(20), 2981–2987.
11.
Kavazanjian, E., Roth, R. A., and Heriverto, E. (1985). “Liquefaction potential mapping for San Francisco.” J. Geotech. Engrg., ASCE, 111(1), 54–76.
12.
Lemke, R. W. (1967). “Effects of the earthquake of March 27, 1964, at Seward, Alaska.” Professional Paper 542‐E, U.S. Geological Survey, Washington, D.C.
13.
Miller, R. K., and Felszeghy, S. F. (1978). “Engineering features of the Santa Barbara earthquake of August 13, 1978.” Report UCSB‐ME‐78‐2, Univ. of Cal. Santa Barbara, 9‐1–9‐4.
14.
McCuUoch, D. S., and Bonilla, M. G. (1970). “Effects of the earthquake of March 27, 1964, on the Alaska Railroad.” Professional Paper 545‐D, U.S. Geological Survey, Washington, D.C.
15.
Plafker, G., Kachadoorian, R., Eckel, E. B., and Mayo, L. R. (1969). “Effects of the earthquake of March 27, 1964, on various communities.” Professional Paper 542‐G, U.S. Geological Survey, Washington, D.C.
16.
Power, M. S., Dawson, A. W., Streiff, D. W., Perman, R. C., and Berger, V. (1982). “Evaluation of liquefaction susceptibility in the San Diego, California urban area,” final technical report by Woodmard‐Clyde Consultants to the U.S. Geological Survey, Contract No. 14‐08‐0001‐19110.
17.
Power, M. S., Berger, V., Youngs, R. R., Coppersmith, K. J., and Streiff, D. W. (1986). “Evaluation of liquefaction opportunity and liquefaction potential in the San Diego, California urban area,” final technical report by Woodward‐Clyde Consultants to the U.S. Geological Survey, Contract No. 14‐08‐0001–20627.
18.
Seed, H. B., Idriss, I. M., and Arango, I. (1983). “Evaluation of liquefaction potential using field performance data.” J. Geotech. Engrg., ASCE, 109(3), 458–482.
19.
Thenhaus, P. C., Perkins, D. M., Ziony, J. I., and Algermissen, S. T. (1980). “Probabilistic estimates of maximum seismic horizontal ground motion on rock in coastal California and the adjacent outer continental shelf.” Open‐File Report 80‐924, U.S. Geological Survey, Denver, Colo.
20.
Tinsley, J. C., Youd, T. L., Perikins, D. M., and Chen, A. T. F. (1985). “Evaluating liquefaction potential.” Evaluating Earthquake Hazards in the Los Angeles Region (Professional Paper 1360), J. I. Ziony, ed., U.S. Geological Survey, Washington, D.C., 263–316.
21.
Yerkes, R. F. (1985). “Geologic and seismologic setting,” Evaluating Earthquake Hazards in the Los Angeles Region (Professional Paper 1360), J. I. Ziony, ed., U.S. Geological Survey, Washington, D.C., 25–41.
22.
Youd, T. L. (1980). “Ground failure displacement and earthquake damage to buildings.” Proc. Conf. on Civ. Engrg. and Nuc. Power, Knoxville, Tenn., ASCE, 2, 7‐6‐1–7‐6‐26.
23.
Youd, T. L. (1985). “Discussion to ‘Landslides Caused by Earthquakes,’ by D. K. Keefer.” Geol. Soc. Am. Bull., 96(8), 1091–1094.
24.
Youd, T. L., Nichols, D. R., Helley, E. J., and Lajoie, K. R. (1975). “Liquefaction potential.” Studies for Seismic Zonation of the San Francisco Bay Area (Professional Paper 941‐A), R. D. Borcherdt, ed., U.S. Geological Survey, Washington, D.C., A68‐A74.
25.
Youd, T. L., and Hoose, S. N. (1978). “Historic ground failures in northern California triggered by earthquakes.” Professional Paper 933, U.S. Geological Survey, Washington, D.C.
26.
Youd, T. L., and Perkins, D. M. (1978). “Mapping of liquefaction induced ground failure potential.” J. Geotech. Engrg. Div., ASCE, 104(4), 433–446.
27.
Youd, D. M., King, E. J., and Preston, R. F. (1978). “Liquefaction potential map of San Fernando Valley, California,” Proc. Internat. Conf. on Microzonation for Safer Constr., National Science Foundation, San Francisco, 1, 267–278.
28.
Youd, T. L., and Wieczorek, G. F. (1982). “Liquefaction and ground failure.” The Imperial Valley, California Earthquake of October 15, 1979 (Professional Paper 1254), U.S. Geological Survey, Washington, D.C., pp. 223–246.
29.
Youd, T. L., and Wieczorek, G. F. (1984). “Liquefaction during the 1981 and previous earthquakes near Westmorland, California.” Open‐File Report 84—680, U.S. Geological Survey, Denver, Colo.
30.
Youd, T. L., Harp, E. L., Keefer, D. K., and Wilson, R. C. (1985). “The Borah Peak, Idaho earthquake of October 29, 1983—liquefaction.” Earthquake Spectra, 2(1), 71–90.
31.
Youd, T. L., and Perkins, J. B. (1987). “Liquefaction susceptibility map of San Mateo County, California.” Miscellaneous Investigations Map I‐1257‐G, U.S. Geological Survey, Washington, D.C.
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Copyright © 1987 ASCE.
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Published online: Nov 1, 1987
Published in print: Nov 1987
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