Faulting along the southern margin of Reelfoot Lake, Tennessee

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Faulting along the southern margin of Reelfoot Lake, Tennessee

Roy Van Arsdale, Jodi Purser, William Stephenson and Jack Odum

Department of Geological Sciences and Center for Earthquake Research and Information University of Memphis, Memphis, Tennessee 38152
U.S. Geological Survey, MS 966, Box 25046, Denver Federal Center, Denver, Colorado 80225

Abstract

The Reelfoot Lake basin, Tennessee, is structurally complexand of great interest seismologically because it is locatedat the junction of two seismicity trends of the New Madrid seismiczone. To better understand the structure at this location, a7.5-km-long seismic reflection profile was acquired on roadsalong the southern margin of Reelfoot Lake. The seismic linereveals a westerly dipping basin bounded on the west by theReelfoot reverse fault zone, the Ridgely right-lateral transpressivefault zone on the east, and the Cottonwood Grove right-lateralstrike-slip fault in the middle of the basin. The displacementhistory of the Reelfoot fault zone appears to be the same asthe Ridgely fault zone, thus suggesting that movement on thesefault zones has been synchronous, perhaps since the Cretaceous.Since the Reelfoot and Ridgely fault systems are believed responsiblefor two of the main-shocks of 1811-1812, the fault history revealedin the Reelfoot Lake profile suggests that multiple mainshocksmay be typical of the New Madrid seismic zone.

The Ridgely fault zone consists of two northeast-striking faultsthat lie at the base of and within the Mississippi Valley bluffline. This fault zone has 15 m of post-Eocene, up-to-the-eastdisplacement and appears to locally control the eastern limitof Mississippi River migration. The Cottonwood Grove fault zonepasses through the center of the seismic line and has approximately5 m of up-to-the-east displacement. Correlation of the CottonwoodGrove fault with a possible fault scarp on the floor of ReelfootLake and the New Markham fault north of the lake suggests theCottonwood Grove fault may change to a northerly strike at ReelfootLake, thereby linking the northeast-trending zones of seismicityin the New Madrid seismic zone.

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				R. K. Mihills and R. B. Van Arsdale Late Wisconsin to Holocene deformation in the New Madrid seismic zone Bulletin of the Seismological Society of America, August 1, 1999; 89(4): 1019 - 1024. [Abstract] [PDF]

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