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  • Print publication year: 2014
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7 - The New Madrid seismic zone of the Central United States

References

Al-Shukri, H. J., Lemmer, R. E., Mahdi, H. H., and Connelly, J. B. (2005). Spatial and temporal characteristics of paleoseismic features in the southern terminus of the New Madrid seismic zone in eastern Arkansas. Seismological Research Letters, 76, 502–511.
Anderson, K. H. (1979). Geological Map of Missouri: 1:500,000. Missouri Geological Survey.
Atekwana, E. A. (1996). Precambrian basement beneath the central Midcontinent United States as interpreted from potential field imagery. In Basement and Basins of Eastern North America, ed. B. A. van der Pluijm and P. A. Catacosinos. Geological Society of America Special Paper 308, pp. 33–44.
Atkinson, G., and 24 others (2000). Reassessing the New Madrid seismic zone. Eos, Transactions, American Geophysical Union, 81, 402–403.
Autin, W. J., Burns, S. F., Miller, B. J., Saucier, R. T., and Snead, J. I. (1991). Quaternary geology of the lower Mississippi Valley. In Quaternary Nonglacial Geology: Conterminous, U.S., K-2, ed. R. B. Morrison. Geological Society of America, pp. 547–582.
Baldwin, J. N., Harris, J. B., Van Arsdale, R. B., et al. (2005). Constraints on the location of the Late Quaternary Reelfoot and New Madrid North faults in the northern New Madrid seismic zone, central United States. Seismological Research Letters, 76, 772–789.
Bartholomew, M. J., and Hatcher, R. D. (2010). The Grenville orogenic cycle of southern Laurentia: unraveling sutures, rifts, and shear zones as potential piercing points for Amazonia. Journal of South American Earth Sciences, 29, 4–20.
Bartholomew, M. J., and Van Arsdale, R. B. (2012). Structural controls on intraplate earthquakes in the eastern United States. In Recent Advances in North American Paleoseismology and Neotectonics East of the Rockies, ed. R. T. Cox, M. P. Tuttle, O. S. Boyd, and J. Locat. Geological Society of America Special Paper 493, pp. 165–190, doi:10.1130/2012.2493(08).
Calais, E., Mattioli, G. S., DeMets, C., et al. (2005). Tectonic strain in plate interiors? Comment on “Space geodetic evidence for rapid strain rates in the New Madrid seismic zone of the central USA by Smalley, et al., 2005, Nature.” Nature, 438, E9–10, doi: 10.1038/nature04428.
Calais, E., Freed, A .M., Van Arsdale, R., and Stein, S. (2010). Triggering of New Madrid seismicity by late-Pleistocene erosion. Nature, 466, 608–611.
Campbell, C. E., Oboh-Ikuenobe, F. E., and Eifert, T. L. (2008). Megatsunami deposit in Cretaceous-Paleogene boundary interval of southeastern Missouri. In The Sedimentary Record of Meteorite Impacts, ed. K. R. Evans, J. W. Horton Jr., D. T. King Jr., and J. R. Morrow. Geological Society of America Special Paper 437, pp. 189–198.
Carlson, S. D., and Guccione, M. J. (2010). Short-term uplift rates and surface deformation along the Reelfoot fault, New Madrid seismic zone. Bulletin of the Seismological Society of America, 100, 1659–1677.
Champion, J., Mueller, K., Tate, A., and Guccione, M. (2001). Geometry, numerical models and revised slip rate for the Reelfoot fault and trishear fault-propagation fold, New Madrid seismic zone. Engineering Geology, 6, 31–49.
Chiu, J. M., Johnston, A. C., and Yang, Y. T. (1992). Imaging the active faults of the central New Madrid seismic zone using PANDA array data. Seismological Research Letters, 63, 375–393.
Chiu, S. C., Chiu, J. M., and Johnston, A. C. (1997). Seismicity of the southeastern margin of Reelfoot rift, central United States. Seismological Research Letters, 68, 785–794.
Clark, P. U., Nelson, A. R., McCoy, W. D., Miller, B. B., and Barnes, D. K. (1989). Quaternary aminostratigraphy of Mississippi Valley loess. Geological Society of America Bulletin, 101, 918–926.
Clendenin, C. W., and Diehl, S. F. (1999). Structural styles of Paleozoic intracratonic fault reactivation: a case study of the Grays Point fault zone in southeastern Missouri, USA. Tectonophysics, 305, 235–248.
Coppersmith, K. J. (1988). Temporal and spatial clustering of earthquake activity in the central and eastern United States. Seismological Research Letters, 59, 299–304.
Cox, R. T. (1988). Evidence for Late Cenozoic activity along the Boliver-Mansfield tectonic zone, midcontinent, USA. The Compass, 65, 207–213.
Cox, R. T. (2010). Holocene Faulting and Liquefaction Along the Southern Margin of the North American Craton (Alabama-Oklahoma Transform). Final Technical Report, U.S. Geological Survey.
Cox, R. T., and Van Arsdale, R. B. (1997). Hotspot origin of the Mississippi embayment and its possible impact on contemporary seismicity. Engineering Geology, 46, 5–12.
Cox, R. T., and Van Arsdale, R. B. (2002). The Mississippi Embayment, North America: a first order continental structure generated by the Cretaceous superplume mantle event. Journal of Geodynamics, 34, 163–176.
Cox, R. T., Van Arsdale, R. B., Harris, J. B., et al. (2000). Late Quaternary faulting in the southern Mississippi embayment and implications for regional neotectonics. Geological Society of America Bulletin, 112, 1724–1735.
Cox, R. T., Van Arsdale, R. B., and Harris, J. B. (2001a). Identification of possible Quaternary deformation in the northeastern Mississippi Embayment using quantitative geomorphic analysis of drainage-basin asymmetry. Geological Society of America Bulletin, 113, 615–624.
Cox, R. T., Van Arsdale, R. B., Harris, J. B., and Larsen, D. (2001b). Neotectonics of the southeastern Reelfoot rift zone margin, central United States, and implications for regional strain accommodation. Geology, 29, 419–422.
Cox, R. T., Larsen, D., Forman, S. L., et al. (2004). Preliminary assessment of sand blows in the southern Mississippi embayment. Bulletin of the Seismological Society of America, 94, 1,125–1,142.
Cox, R. T., Cherryhomes, J., Harris, J. B., et al. (2006). Paleoseismology of the southeastern Reelfoot Rift in western Tennessee and implications for intraplate fault zone evolution. Tectonics, 23, 1–17.
Cox, R. T., Gordon, J., Forman, S., et al. (2010). Paleoseismic sand blows in north Louisiana and south Arkansas. Seismological Research Letters, 81, 1032–1047.
Cox, R. T., Van Arsdale, R., Clark, D., Hill, A., and Lumsden, D. (2013). A revised paleo-earthquake chronology on the southeast Reelfoot rift margin near Memphis, Tennessee. Seismological Research Letters, 84, 402–408.
Csontos, R. M. (2007). Three dimensional modeling of the Reelfoot rift and New Madrid seismic zone. Unpublished Ph.D. thesis, The University of Memphis, Memphis, Tennessee.
Csontos, R., and Van Arsdale, R. (2008). New Madrid seismic zone fault geometry. Geosphere, 4, 802–813.
Csontos, R., Van Arsdale, R., Cox, R., and Waldron, B. (2008). The Reelfoot Rift and its impact on Quaternary deformation in the central Mississippi River Valley. Geosphere, 4, 145–158.
Culotta, R. C., Pratt, T., and Oliver, J. (1990). A tale of two sutures: COCORP's deep seismic surveys of the Grenville province in the eastern U.S. mid-continent. Geology, 18, 646–649.
Dart, R., and Swolfs, H. S. (1998). Contour mapping of relic structures in the Precambrian basement of the Reelfoot Rift, North American Midcontinent. Tectonics, 17, 235–249.
Dickinson, R., and Gehrels, G. E. (2009). U-Pb ages of detrital zircons in Jurassic eolian and associated sandstones of the Colorado Plateau: Evidence for transcontinental dispersal and intraregional recycling of sediment. Geological Society of America Bulletin, 121, 408–433.
Easterbrook, D. (1999). Surface Processes and Landforms. Upper Saddle River: Prentice Hall.
Ellis, W. L. (1994). Summary and Discussion of Crustal Stress Data in the Region of the New Madrid Seismic Zone. U.S. Geological Survey Professional Paper 1538-B, B1–B13.
Erwin, C. P., and McGinnis, L. D. (1975). Reelfoot Rift: reactivated precursor to the Mississippi Embayment. Geological Society of America Bulletin, 86, 1287–1295.
Forte, A. M., Mitrovica, J. X., Moucha, R., Simmons, N. A., and Grand, S. P. (2007). Descent of the ancient Farallon slab drives localized mantle flow below the New Madrid seismic zone. Geophysical Research Letters, 34, L04308.
Fuller, M. L. (1912). The New Madrid earthquake. Bulletin U.S. Geological Survey, 494.
Gangopadhyay, A., and Talwani, P. (2005). Fault intersections and intraplate seismicity in Charleston, South Carolina: insights from a 2-D numerical model. Current Science, 88, 1609–1616.
Ginzburg, A., Mooney, W. D., Walter, A. W., Lutter, W. J., and Healy, J. H. (1983). Deep structure of northern Mississippi embayment. American Association of Petroleum Geologists Bulletin, 67, 2031–2046.
Gomberg, J. (1993). Tectonic deformation in the New Madrid seismic zone: inferences from map view and cross-sectional boundary element models. Journal of Geophysical Research, 98, 6639–6664.
Gomberg, J., and Ellis, M. (1994). Topography and tectonics of the central New Madrid seismic zone: results of numerical experiments using a three-dimensional boundary element program. Journal of Geophysical Research, 89, 20,299–20,310.
Grana, J. P., and Richardson, R. M. (1996). Tectonic stress within the New Madrid seismic zone. Journal of Geophysical Research, 101, 5445–5458.
Grollimund, B., and Zoback, M. D. (2001). Did glaciation trigger intraplate seismicity in the New Madrid seismic zone?Geology, 29, 175–178.
Guccione, M. J. (2005). Late Pleistocene and Holocene paleoseismology of an intraplate seismic zone in a large alluvial valley, the New Madrid seismic zone, central USA. Tectonophysics, 408, 237–264.
Guccione, M. J., Van Arsdale, R. B., and Hehr, L. H. (2000). Origin and age of the Manila high and associated Big Lake “Sunklands”, New Madrid seismic zone, northeastern Arkansas. Geological Society of America Bulletin, 112, 579–590.
Guccione, M. J., Marple, R., and Autin, W. J. (2005). Evidence for Holocene displacement on the Bootheel Fault (lineament) in southeastern Missouri: seismotectonic implications for the New Madrid region. Geological Society of America Bulletin, 117, 319–333.
Haley, B. R., Glick, E. E., and Bush, W. V. (1993). Geological Map of Arkansas: 1: 500,000. U.S. Geological Survey.
Hamilton, R. M., and Johnston, A. C. (1990). Tecumseh's prophecy: preparing for the next New Madrid earthquake. U.S. Geological Survey Circular, 1066.
Hao, Y., Magnani, M. B., McIntosh, K., Waldron, B., and Guo, L. (2013). Quaternary deformation along the Meeman–Shelby fault, near Memphis, Tennessee, imaged by high-resolution marine and land seismic reflection profiles. Tectonics, 32, 1–15, doi:10.1002/tect.20042.
Harris, J. B. (2009). Hammer-impact SH-wave seismic reflection methods in neotectonic investigations: general observations and case histories from the Mississippi Embayment, U.S.A. Journal of Earth Science, 20, 513–525.
Harris, J. B., and Sorrells, J. L. (2006). Shear-wave seismic reflection images of the Big Creek fault zone near Helena, Arkansas. Society of Exploration Geophysics New Orleans Annual Meeting, 1500–1503.
Harrison, R. W., and Schultz, A. (2002). Tectonic framework of the southwestern margin of the Illinois Basin and its influence on neotectonism and seismicity. Seismological Research Letters, 73, 698–731.
Harrison, R. W., Hoffman, D., Vaughn, J. D., et al. (1999). An example of neotectonism in a continental interior: Thebes Gap, Midcontinent, United States. Tectonophysics, 305, 399–417.
Heidbach, O., Tingay, M., Barth, A., et al. (2008). The release 2008 of the World Stress Map (available online at www.world-stress-map.org).
Hildenbrand, T. G. (1985). Rift structure of the northern Mississippi from the analysis of gravity and magnetic data. Journal of Geophysical Research, 90, 12607–12622.
Hildenbrand, T. G., and Hendricks, J. D. (1995). Geophysical setting of the Reelfoot Rift and relation between rift structures and the New Madrid seismic zone. In Investigations of the New Madrid Seismic Zone, ed. K. M. Shedlock and A.C. Johnson. U.S. Geological Survey Professional Paper, 1538-E.
Hildenbrand, T. G., Stuart, W. D., and Talwani, P. (2001). Geologic structures related to New Madrid earthquakes near Memphis, Tennessee, based on gravity and magnetic interpretations. Engineering Geology, 62, 105–121.
Holbrook, J., Autin, W. J., Rittenour, T. M., Marshak, S., and Goble, R. J. (2006). Stratigraphic evidence for millennial-scale temporal clustering of earthquakes on a continental-interior fault: Holocene Mississippi river floodplain deposits, New Madrid seismic zone, USA. Tectonophysics, 420, 431–454.
Holm, D. K., Anderson, R., Boerboom, T. J., et al. (2007). Reinterpretation of Paleoproterozoic accretionary boundaries of the north-central United States based on a new aeromagnetic-geologic compilation. Precambrian Research, 157, 71–79.
Hopper, M., and Algermissen, S. (1980). An Evaluation of the Effects of the October 31, 1895, Charleston, Missouri, Earthquake. U.S. Geological Survey, Open-File Report 80–778.
Hough, S. E., and Page, M. (2011). Toward a consistent model for strain accrual and release for the New Madrid seismic zone, central United States. Journal of Geophysical Research, 116, BO3311, 17 pp.
Hough, S. E., Armbruster, J. G., Seeber, L., and Hough, J. F. (2000). On the modified Mercalli intensities and magnitudes of the 1811–1812 New Madrid, central U.S. earthquakes. Journal of Geophysical Research, 105, 23,839–23,864.
Howe, J. R. (1985). Tectonics, sedimentation, and hydrocarbon potential of the Reelfoot aulocogen. Unpublished MS thesis, University of Oklahoma, Norman.
Jibson, R. W., and Keefer, D. K. (1989). Statistical analysis of factors affecting landslide distribution in the New Madrid seismic zone, Tennessee and Kentucky. Engineering Geology, 27, 509–542.
Johnson, P. R., Zietz, I., and Thomas, W. A. (1994). Possible Neoproterozoic – early Paleozoic grabens in Mississippi, Alabama, and Tennessee. Geology, 22, 11–14.
Johnston, A. C. (1996). Seismic moment assessment of earthquakes in stable continental regions-III. New Madrid 1811–1812, Charleston 1886 and Lisbon 1755. Geophysical Journal International, 126, 314–344.
Johnston, A. C., and Schweig, E. S. (1996). The enigma of the New Madrid earthquakes of 1811–1812. Annual Review of Earth and Planetary Sciences, 24, 339–384.
Keller, E. A., and Pinter, N. (2002). Active Tectonics: Earthquakes, Uplift, and Landscape. Upper Saddle River, New Jersey: Prentice-Hall.
Kelson, K. I., Simpson, G. D., Van Arsdale, R. B., et al. (1996). Multiple Late Holocene earthquakes along the Reelfoot fault, central New Madrid seismic zone. Journal of Geophysical Research, 101, 6151–6170.
Kenner, S. J., and Segall, P. (2000). A mechanical model for intraplate earthquakes: application to the New Madrid seismic zone. Science, 289, 2329–2332.
Langenheim, V. D., and Hildenbrand, T. G. (1997). Commerce geophysical lineament: its source, geometry, and relation to the Reelfoot rift and New Madrid seismic zone. Geological Society of America Bulletin, 109, 580–595.
Liu, L., and Zoback, M. D. (1997). Lithospheric strength and intraplate seismicity in the New Madrid seismic zone. Tectonics, 16, 585–595.
Liu, P., and Bird, P. (2002). North America plate is driven westward by lower mantle flow. Geophysical Research Letters, 29, 17-1–17-4.
Luzietti, E. A., Kanter, L. R., Schweig, E. S., ShedlockK. M., and Van Arsdale, R. B. (1995). Shallow Deformation Along the Crittenden County Fault Zone Near the Southeastern Boundary of the Reelfoot Rift, Northeast Arkansas. U.S. Geological Survey Professional Paper 1538-J.
Markewich, H. H., Wysocki, D. A., Pavich, M. J., et al. (1998). Paleopedology plus TL, 10Be, and 14C dating as tools in stratigraphic and paleoclimatic investigations, Mississippi River valley, U.S.A. Quaternary International, 51/52, 143–167.
Martin, R. V. (2008). Shallow faulting of the southeast Reelfoot rift margin. Unpublished Ph.D. thesis, Department of Earth Sciences, University of Memphis, Memphis, Tennessee.
McCraken, M. H. (1971). Structural Features of Missouri. Missouri Geological Survey and Water Resources, Report Investigation 49.
McKenna, J., Stein, S., and Stein, C. A. (2007). Is the New Madrid seismic zone hotter and weaker than its surroundings? In Continental Intraplate Earthquakes: Science, Hazard, and Policy Issues, ed. S. Stein, and S. Mazzotti. Geological Society of America Special Paper 425, 167–175.
McKeown, F. A., and Diehl, S. F. (1994). Evidence of Contemporary and Ancient Excess Fluid Pressure in the New Madrid Seismic Zone of the Reelfoot Rift, Central United States. U.S. Geological Survey Professional Paper 1538-N.
Mihills, R. K., and Van Arsdale, R. B. (1999). Late Wisconsin to Holocene New Madrid seismic zone deformation. Bulletin of the Seismological Society of America, 89, 1019–1024.
Mooney, W. D., Andrews, M. C., Ginzburg, A., Peters, D. A., Hamilton, R. M. (1983). Crustal structure of the Northern Mississippi Embayment and comparison with other continental rift zones. Tectonophysics, 94, 327–338.
Mueller, K., and Pujol, J. (2001). Three-dimensional geometry of the Reelfoot blind thrust: implications for moment release and earthquake magnitude in the New Madrid seismic zone. Bulletin of the Seismological Society of America, 91, 1563–1573.
Nelson, K. D., and Zhang, J. (1991). A COCORP deep reflection profile across the buried Reelfoot rift, south-central United States. Tectonophysics, 197, 271–293.
Nelson, W. J., Denny, F. B., Devera, J. A., Follmer, L. R., and Masters, J. M. (1997). Tertiary and Quaternary tectonic faulting in southernmost Illinois. Engineering Geology, 46, 235–258.
Newman, A., Stein, S., Weber, J., et al. (1999). Slow deformation and lower seismic hazard at the New Madrid seismic zone. Science, 284, 619–621.
Nuttli, O. W. (1973). The Mississippi Valley earthquakes of 1811–1812, intensities, ground motion and magnitudes. Bulletin of the Seismological Society of America, 63, 227–248.
Obermeier, S. F. (1989). The New Madrid Earthquakes: An Engineering-Geologic Interpretation of Relict Liquefaction Features. U.S. Geological Survey Professional Paper 1336-B.
Odum, J. K., Stephenson, W. J., Shedlock, K. M., and Pratt, T. L. (1998). Near-surface structural model for deformation associated with the February 7, 1812, New Madrid, Missouri, earthquake. Geological Society of America Bulletin, 110, 149–162.
Odum, J., Stephenson, W. J., Williams, R. A., et al. (2001). High resolution seismic-reflection imaging of shallow deformation beneath the northeast margin of the Manila high at Big Lake, Arkansas, New Madrid seismic zone, central USA. Engineering Geology, 62, 91–103.
Odum, J. K., Stephenson, W. J., and Williams, R. A. (2010). Multisource, high-resolution seismic-reflection imaging of Meeman–Shelby fault and a possible tectonic model for a Joiner Ridge–Manila High stepover structure in the upper Mississippi embayment region. Seismological Research Letters, 81, 647–660.
Parrish, S., and Van Arsdale, R. (2004). Faulting along the southeastern margin of the Reelfoot Rift in northwestern Tennessee revealed in deep seismic-reflection profiles. Seismological Research Letters, 75, 784–793.
Penick, J. L. (1981). The New Madrid Earthquakes. Columbia University: University of Missouri Press.
Pollitz, F. F., Kellogg, L., and Burgmann, R. (2001). Sinking mafic body in a reactivated lower crust: a mechanism for stress concentration at the new Madrid seismic zone. Bulletin of the Seismological Society of America, 91, 1882–1887.
Pratt, T. L. (2012). Kinematics of the New Madrid seismic zone, central U.S., based on stepover models. Geology, 40, 371–374.
Pratt, T. L., Williams, R. A., Odum, J. K., and Stephenson, W. J. (2012). Origin of the Blytheville arch, and long-term displacement on the New Madrid seismic zone, central U.S. In Recent Advances in North American Paleoseismology and Neotectonics East of the Rockies, ed. R. T. Cox, M. P. Tuttle, O.S. Boyd, and J. Locat. Geological Society of America Special Paper 493, pp. 1–16, doi:10.1130/2012.2493(01).
Pryne, D., Van Arsdale, R., Csontos, R., and Woolery, E. (2013). Northeastern extension of the New Madrid North fault – New Madrid seismic zone, central United States. Bulletin of the Seismological Society of America, 103, 2277–2294.
Purser, J. L., and Van Arsdale, R. B. (1998). Structure of the Lake County Uplift: New Madrid seismic zone. Bulletin of the Seismological Society of America, 88, 1204–1211.
Rankin, D. W., and 12 others (1993). Proterozoic rocks east and southeast of the Grenville front. In Precambrian: Conterminous U.S., Geology of North America, v. C-2, ed. J. C. Reed Jr., et al. Boulder, Colorado: Geological Society of America, pp. 335–462.
Richardson, R. M. (1992). Ridge forces, absolute plate motions, and the intraplate stress field. Journal of Geophysical Research, 97, 11,739–11,748.
Russ, D. P. (1979). Late Holocene faulting and earthquake recurrence in the Reelfoot Lake area, northwestern Tennessee. Geological Society of America Bulletin, 90, 1013–1018.
Russ, D. P. (1982). Style and significance of surface deformation in the vicinity of New Madrid, Missouri. In Investigations of the New Madrid Earthquake Region, ed. F. A. McKeown and L. C. Pakiser, U.S. Geological Survey Professional Paper 1236, pp. 95–114.
Saucier, R. T. (1994). Geomorphology and Quaternary Geologic History of the Lower Mississippi Valley. U.S. Army Engineer Waterways Experiment Station, Vicksburg, Mississippi, 1.
Schweig, III, E. S., and Ellis, M. A. (1994). Reconciling short recurrence intervals with minor deformation in the New Madrid seismic zone. Science, 264, 1308–1311.
Sexton, J. L. (1992). Collaborative Research SIUC-USGS, High Resolution Seismic Reflection Surveying of the Bootheel Lineament in the New Madrid Seismic Zone. NEHRP Final Report.
Sexton, J. L., and Jones, P. B. (1986). Evidence for recurrent faulting in the New Madrid seismic zone from Mini-Sosie high-resolution reflection data. Geophysics, 51, 1760–1788.
Shoemaker, M., Vaughn, J. D., Anderson, N. L., et al. (1997). A shallow high-resolution seismic reflection study of Dudley ridge, south-east Missouri. Computers & Geosciences, 23, 1113–1120, doi:10.1016/S0098-3004(97)00096-4.
Spitz, W. J., and Schumm, S. A. (1997). Tectonic geomorphology of the Mississippi Valley between Osceola, Arkansas, and Friars Point, Mississippi. Engineering Geology, 46, 259–280.
Stahle, D. W., Van Arsdale, R. B., and Cleaveland, M. K. (1992). Tectonic signal in baldcypress trees at Reelfoot Lake, Tennessee. Seismological Research Letters, 63, 439–448.
Stark, J. T. (1997). The East Continent rift complex: evidence and conclusions. In Middle Proterozoic to Cambrian Rifting, Central North America, ed. R. W. Ojakangas, A. B. Dickas, and J. C. Green. Geological Society of America Special Paper 312, pp. 253–266.
Stein, S. (2010). Disaster Deferred: How New Science Is Changing Our View of Earthquake Hazards in the Midwest. New York: Columbia University Press.
Stuart, W. D., Hildenbrand, T. G., and Simpson, R. W. (1997). Stressing of the New Madrid seismic zone by a lower crust detachment fault. Journal of Geophysical Research, 102, 27,623–27,633.
Talwani, P. (1999). Fault geometry and earthquakes in continental interiors. Tectonophysics, 305, 371–379.
Tavakoli, B., Pezeshk, S., and Cox, R. T. (2010). Seismicity of the New Madrid seismic zone derived from a deep-seated strike-slip fault. Bulletin of the Seismological Society of America, 100, 1646–1658.
Thomas, W. A. (1988). The Black Warrior Basin. In The Geology of North America, v. D-2: Sedimentary Cover – North American Craton, U.S., ed. L. L. Sloss. Geological Society of America, pp. 471–492.
Thomas, W. A. (1991). The Appalachian-Ouachita rifted margin of southeastern North America. Geological Society of America Bulletin, 103, 415–431.
Thomas, W. A. (1993). Low-angle detachment geometry of the late Precambrian-Cambrian Appalachian-Ouachita rifted margin of southeastern North America. Geology, 21, 921–924.
Thomas, W. A. (2006). Tectonic inheritance at a continental margin. GSA Today, 16, 4–11.
Tollo, R. P., Corriveau, L., McLelland, J., and Bartholomew, M. J. (2004). Introduction. In Proterozoic Tectonic Evolution of the Grenville Orogen in North America, ed. R. P. Tollo, L. Corriveau, J. McLelland, and M. J. Bartholomew. The Geological Society of America Memoir 197, pp. 1–18.
Tuttle, M. P., Schweig, E. S., Sims, J. D., et al. (2002). The earthquake potential of the New Madrid seismic zone. Bulletin of the Seismological Society of America, 92, 2080–2089.
Tuttle, M. P., Schweig III, E. S., Campbell, J., et al. (2005). Evidence for New Madrid earthquakes in A.D. 300 and 2350 B.C. Seismological Research Letters, 76, 489–501.
Tuttle, M. P., Al-Shukri, H., and Mahdi, H. (2006). Very large earthquakes centered southwest of the New Madrid seismic zone 5,000–7,000 years ago. Seismological Research Letters, 77, 755–770.
Van Arsdale, R. B. (2000). Displacement history and slip rate on the Reelfoot fault of the New Madrid seismic zone. Engineering Geology, 55, 219–226.
Van Arsdale, R. B. (2009). Adventures Through Deep Time: The Central Mississippi River Valley and Its Earthquakes. Geological Society of America Special Paper455.
Van Arsdale, R., and Cox, R. (2007). The Mississippi's curious origins. Scientific American, 296, 76–82.
Van Arsdale, R. B., Cupples, W. B. (2013). Late Pliocene and Quaternary deformation of the Reelfoot Rift. Geosphere, 9(6), doi:10.1130/GES00906, 1819–1831.
Van Arsdale, R. B., Williams, R. A., Schweig, E. S., et al. (1995). The origin of Crowley's Ridge, northeastern Arkansas: erosional remnant or tectonic uplift?Bulletin of the Seismological Society of America, 85, 963–986.
Van Arsdale, R. B., Purser, J. L., Stephenson, W., and Odum, J. (1998). Faulting along the southern margin of Reelfoot Lake, Tennessee. Bulletin of the Seismological Society of America, 88, 131–139.
Van Arsdale, R. B., Cox, R. T., Johnston, A. C., Stephenson, W. J., and Odum, J. K. (1999). Southeastern extension of the Reelfoot fault. Seismological Research Letters, 70, 348–359.
Van Arsdale, R. B., Bresnahan, R. P., McCallister, N. S., and Waldron, B. (2007). The Upland Complex of the central Mississippi River valley: its origin, denudation, and possible role in reactivation of the New Madrid seismic zone. In Continental Intraplate Earthquakes: Science, Hazard, and Policy Issues, ed. S. Stein, and S. Mazzotti. Geological Society of America Special Paper 425, pp. 177–192.
Van Arsdale, R. B., Arellano, D., Stevens, K. C., et al. (2012). Geology, geotechnical engineering, and natural hazards of Memphis, Tennessee, USA. Environmental & Engineering Geoscience, 18, 113–158, doi:10.2113/gseegeosci.18.2.113.
Van Schmus, W. R., and 24 others (1993). Transcontinental Proterozoic provinces. In Precambrian: Conterminous U.S., Geology of North America, v. C-2, ed. J. C. Reed, et al. Boulder, Colorado: Geological Society of America, pp. 171–334.
Van Schmus, W. R., Bickford, M. E., and Turek, A. (1996). Proterozoic geology of the east-central Midcontinent basement. In Basement and Basins of Eastern North America, ed. B. A. van der Pluijm and P. A. Catacosinos. Geological Society of America Special Paper 308, pp. 7–32.
Van Schmus, W. R., Schneider, D. A., Holm, D. K., Dodson, S., and Nelson, B. K. (2007). New insights into the southern margin of the Archean-Proterozoic boundary in the north-central United States based on U-Pb, Sm-Nd, and Ar-Ar geochronology. Precambrian Research, 157, 80–105.
Vaughn, J. D. (1994). Paleoseismological Studies in the Western Lowlands of Southeastern Missouri. Final Technical Report, U.S. Geological Survey.
Velasco, M., Van Arsdale, R., Waldron, B., Harris, J., and Cox, R. (2005). Quaternary faulting beneath Memphis, Tennessee. Seismological Research Letters, 76, 598–614.
Wesnousky, S. G. (1988). Seismological and structural evolution of strike-slip faults. Nature, 335, 340–343.
Williams, R. A., Stephenson, W. J., Odum, J. K., and Worley, D. M. (2001). Seismic-reflection imaging of Tertiary faulting and post-Eocene deformation 20 km north of Memphis, Tennessee. Engineering Geology, 62, 79–90.
Wu, P., and Johnston, P. (2000). Can deglaciation trigger earthquakes in North America? Geophysical Research Letters, 27, 1323–1326.
Zoback, M. L. (1992). Stress field constraints on intraplate seismicity in eastern North America. Journal of Geophysical Research, 92, 11,761–11,782.
Zoback, M. L., and Zoback, M. D. (1989). Tectonic stress field of the continental United States. In Geophysical Framework of the Continental United States, ed. L. Pakiser and W. Mooney. Geological Society of America Memoir 172, pp. 523–540.