The following HTML text is provided to enhance online
readability. Many aspects of typography translate only awkwardly to HTML.
Please use the page image
as the authoritative form to ensure accuracy.
Active Tectonics: Studies in Geophysics
uplift in the Holocene record of the Peruvian north coast, Geol. Soc. Am. Abstr. Programs13, 545.
Sarna-Wojcicki, A.M., K.M.Williams, and R.F.Yerkes (1976). Geology of the Ventura fault, Ventura County, California, U.S. Geol. Surv. Map MF-781, 1:6,000.
Sarna-Wojcicki, A.M., K.R.Lajoie, and R.F.Yerkes (1986). Recurrent Holocene displacement on the Javon Canyon fault: A comparison of fault movement history with calculated average recurrence intervals, U.S. Geol. Surv. Prof. Paper 1339.
Sawamura, T. (1953). Relation between the activities of the outer earthquake zone in southwestern Japan and the geologic structures and crustal movements of Shikoku and its vicinity, Res. Rep. Kochi Univ.2(15), 1–46.
Schofield, J.E. (1973). Post-glacial sea levels of Northland and Auckland, N.Z. J. Geol. Geophys.16, 359–366.
Scholl, D.W., F.C.Craighead, and M.Stuiver (1970). Florida curve revised: Its relation to coastal sedimentation rates, Science163, 562–564.
Shackleton, N.J., and N.D.Opdyke (1973). Oxygen isotope and paleomagnetic stratigraphy of equatorial Pacific core V28–238, Quat. Res.3, 39–55.
Shimazaki, K., and T.Nakata (1980). Time-predictable recurrence model for large earthquakes, Geophys. Res. Lett.7, 279–282.
Shubert, C., and B.J.Szabo (1978). Uranium-series ages of Pleistocene marine deposits on the islands of Curacao and La Blanquilla, Caribbean Sea, in Caribbean Geol. Conf. 8th Proc., H.J.MacGillavry and D.J.Beets, eds., Geol. Mijmbouw57, 325–332.
Sissons, J.B., and R.Cornish (1982). Rapid localized glacio-isostatic uplift at Glen Roy, Scotland, Nature297, 213–214.
Sneh, Y. and M.Klein (1984). Holocene sea-level changes at the coast of Dor, southeast Mediterranean, Science226, 831–832.
Stearns, C.E. (1976). Estimates of the position of sea level between 140,000 and 75,000 years ago, Quat. Res.6, 445–429.
Stearns, C.E. (1984). Uranium-series dating and the history of sea level, in Quaternary Dating Methods, W.C.Mahaney, ed., Elsevier, New York, pp. 53–66.
Stevens, G.R. (1973). Late Holocene marine features adjacent to Port Nicholson, Wellington, New Zealand, N.Z. Geol. Surv.16, 455–484.
Sugimura, A., and Y.Naruse (1954). Changes in sea level, Seismic upheavals and coastal terraces in the southern Kanto Region, Japan, Jpn. J. Geol. Geogr.24, 101–113.
Sutherland, D.G. (1983). The dating of former shorelines; in Shorelines and Isostasy, D.E.Smith, and A.G.Dawson, eds., Inst. Brit. Geogr. Spec. Publ. 16, pp. 129–160.
Szabo, B.J. (1979). Uranium-series age of coral reef growth on Rottuest Island, western Australia, Mar. Geol.29, M11-M15.
Szabo, B.J., W.C.Ward, A.E.Weidie, and M.J.Brady (1978). Age and magnitude of the late Pleistocene sea-level rise on the eastern Yucatan Peninsula, Geology6, 713–715.
Tamura, A. (1979). Holocene marine terraces and crustal movements of Sado Island, central Japan, Geogr. Rev. Jpn.52, 339–355.
Tarr, A.C. (1974). World Seismicity map, U.S. Geological Survey.
Thatcher, W. (1984). The earthquake deformation cycle at the Nankai Trough, southwest, Japan, J. Geophys. Res.89, 3087–3101.
Thom, B.G., and P.S.Roy (1983). Sea-level changes in New South Wales over the past 15,000 years, Geogr. Dept. James Cook Univ. Monogram Series, Occasional Paper 3, 64–84.
Thom, G.G., R.H.Hails, and A.R.H.Martin (1969). Radiocarbon evidence against higher postglacial sea levels in eastern Australia, Mar. Geol.7, 161–168.
Thompson, W.B., K.J.Borns, H.W.Borns, Jr., and B.G.Anderson (1983). Glacial-marine deltas and late Pleistocene-Holocene crustal movements in southern Maine, in New England Seismotectonic Study Activities in Maine during Fiscal Year 1982, W.B.Thompson and J.T.Kelley, eds., Maine Geol. Surv. Rep., U.S. Reg. Comm., pp. 153–171.
Thurber, D.L., W.S.Broecker, W.S.Blanchard, and H.A.Protratz (1965). Uranium-series ages of Pacific atoll coral, Science149, 55–58.
Veeh, H.H. (1966). 230Th/238U and 234U/238U ages of Pleistocene high sea-level stand, J. Geophys. Res.71, 3379–3386.
Veeh, H.H., and J.Chappell (1970). Astronomical theory of climate change: Support from New Guinea, Science167, 862–865.
Veeh, H.H., and J.W.Valentine (1967). Radiometric ages of Pleistocene fossils from Cayucos, California, Geol. Soc. Am. Bull.78, 547–550.
Vita-Finzi, C. (1979). Rates of Holocene folding in the coastal Zagros near Bandar Abbas, Iran, Nature278, 632–634.
Walcott, R.I. (1970). Isostatic response to loading of the crust in Canada, Can. J. Earth Sci.7, 716–734.
Walcott, R.I. (1984). The major structural elements of New Zealand, in An Introduction to the Recent Crustal Movements of New Zealand, R.I.Walcott comp., R. Soc. N.Z. Misc. Ser.7, 1–6.
Ward, W.T. (1985). Correlation of east Australian Pleistocene shorelines with deep-sea core stages: A basis for a coastal chronology, Geol. Soc. Am. Bull.96, 1156–1166.
Weber, G.E. (1983). Geologic investigation of the marine terraces of the San Simeon region and Pleistocene activity of the San Simeon fault zone, San Luis Obispo County, California, U.S. Geol. Surv. Tech. Rep.66.
Weber, G.E., and Cotton, W.R. (1981). Geologic investigation of recurrence intervals and recency of faulting along the San Gregorio fault zone, San Mateo County, California, U.S. Geol. Surv. Open-File Rep.81–263.
Weber, G.E., and K.R.Lajoie (1977). Late Pleistocene and Holocene tectonics of the San Gregorio fault zone between Moss Beach and Point Año Nuevo, San Mateo County, California, Geol. Soc. Am. Abstr. Programs9, 524.