The Liquefaction Record of Past Earthquakes in the Central Virginia Seismic Zone, Eastern United States

Abstract Following the 2011 moment magnitude, M 5.7 Mineral, Virginia, earthquake, we conducted a search for paleoliquefaction features and found 41 sand dikes, sand sills, and soft-sediment deformation features at 24 sites exposed in cutbanks along several rivers: (1) the South Anna River, where paleoliquefaction features were found in the epicentral area of the Mineral earthquake and farther downstream to the southeast; (2) the Mattaponi and Pamunkey Rivers east of the Fall Line, where liquefiable sediments are more common than in the epicentral area; and (3) the James River and Rivanna River–Stigger Creek, where a few sand dikes were found in the 1990s. Liquefaction features are grouped into two age categories based on dating of host sediment in which they occur and weathering characteristics of the features. A younger generation of features that formed during the past 350 yr are small, few in number, and appear to be limited to the James and Pamunkey Rivers. Though there are large uncertainties in their locations and magnitudes, one or more preinstrumental earthquakes, including the 1758, 1774, and 1875 events, likely caused these features. An older generation of liquefaction features that formed between 350 and 2800 yr ago are larger, more numerous, and more broadly distributed than the younger generation of features. Several earthquakes could account for the regional distribution of paleoliquefaction features, including one event of M 6.25–6.5 near Holly Grove, or two events of M 6.0 near Mineral and M 6.25 near Ashland. Amplification of ground motions in Coastal Plain sediment might have contributed to liquefaction along the Mattaponi and Pamunkey Rivers.

Download Full-text

Paleoliquefaction Studies and the Evaluation of Seismic Hazard

Geosciences ◽

10.3390/geosciences9070311 ◽

2019 ◽

Vol 9 (7) ◽

pp. 311 ◽

Cited By ~ 7

Author(s):

Tuttle ◽

Hartleb ◽

Wolf ◽

Mayne

Keyword(s):

Background Information ◽

Seismic Zone ◽

Soft Sediment ◽

Source Characterization ◽

Ground Shaking ◽

Earthquake Hazard Assessment ◽

Seismic Source Models ◽

Deformation Features ◽

Sediment Deformation ◽

Soft Sediment Deformation

Recent and historical studies of earthquake-induced liquefaction, as well as paleoliquefaction studies, demonstrate the potential usefulness of liquefaction data in the assessment of the earthquake potential of seismic sources. Paleoliquefaction studies, along with other paleoseismology studies, supplement historical and instrumental seismicity and provide information about the long-term behavior of earthquake sources. Paleoliquefaction studies focus on soft-sediment deformation features, including sand blows and sand dikes, which result from strong ground shaking. Most paleoliquefaction studies have been conducted in intraplate geologic settings, but a few such studies have been carried out in interplate settings. Paleoliquefaction studies provide information about timing, location, magnitude, and recurrence of large paleoearthquakes, particularly those with moment magnitude, M, greater than 6 during the past 50,000 years. This review paper presents background information on earthquake-induced liquefaction and resulting soft-sediment deformation features that may be preserved in the geologic record, best practices used in paleoliquefaction studies, and application of paleoliquefaction data in earthquake source characterization. The paper concludes with two examples of regional paleoliquefaction studies—in the Charleston seismic zone and the New Madrid seismic zone in the southeastern and central United States, respectively—which contributed to seismic source models used in earthquake hazard assessment.

Download Full-text

Earthquake migration in the Fairbanks, Alaska seismic zone

Bulletin of the Seismological Society of America ◽

10.1785/bssa0700010223 ◽

1980 ◽

Vol 70 (1) ◽

pp. 223-241

Author(s):

Larry Gedney ◽

Steve Estes ◽

Nirendra Biswas

Keyword(s):

B Value ◽

Aftershock Sequence ◽

Stress Axis ◽

Seismic Zone ◽

Epicentral Area ◽

Focal Mechanism Solutions ◽

Relative Stress ◽

Earthquake Migration ◽

Dislocation Process ◽

High Level

abstract Since a series of moderate earthquakes near Fairbanks, Alaska in 1967, the “Fairbanks seismic zone” has maintained a consistently high level of seismicity interspersed with sporadic earthquake swarms. Five swarms occurring since 1970 demonstrate that tightly compacted centers of activity have tended to migrate away from the epicentral area of the 1967 earthquakes. Comparative b-coefficients of the first four swarms indicate that they occurred under different relative stress conditions than the last episode, which exhibited a higher b-value and was, in fact, a main shock of magnitude 4.6 with a rapidly decaying aftershock sequence. This last recorded sequence in February 1979 was an extension to greater depths along a lineal seismic zone whose first recorded activation occurred during a swarm two years earlier. Focal mechanism solutions indicate a north-south orientation of the greatest principal stress axis, σ1, in the area. A dislocation process related to crustal spreading between strands of a right-lateral fault, similar to that which has been inferred for southern California, is suggested.

Download Full-text

Geologic framework and evidence for neotectonism in the epicentral area of the 2011 Mineral, Virginia, earthquake

The 2011 Mineral, Virginia, Earthquake, and Its Significance for Seismic Hazards in Eastern North America ◽

10.1130/2015.2509(20) ◽

2015 ◽

Cited By ~ 1

Author(s):

William C. Burton ◽

Richard W. Harrison ◽

David B. Spears ◽

Nicholas H. Evans ◽

Shannon Mahan

Keyword(s):

Epicentral Area ◽

Virginia Earthquake

Download Full-text

Integrating paleontology, geothermometry, and sedimentology in determining the history of the Reelfoot Basin, southern midcontinent, U.S.A.

The Paleontological Society Special Publications ◽

10.1017/s2475262200008030 ◽

1992 ◽

Vol 6 ◽

pp. 243-243

Author(s):

J.E. Repetski ◽

M.E. Taylor ◽

D.S. Collins ◽

A.R. Palmer ◽

G.D. Wood ◽

...

Keyword(s):

Cold Water ◽

Vitrinite Reflectance ◽

Short Interval ◽

Regional Scale ◽

Recent Analysis ◽

Seismic Zone ◽

Eastern United States ◽

Early Ordovician ◽

Lower Ordovician ◽

History Of

The northeast-trending Reelfoot basin, extending from northeast Arkansas and westernmost Tennessee into southeastern Missouri, southernmost Illinois, and westernmost Kentucky, is geologically, and socioeconomically, significant because it is co-extensive with the New Madrid Seismic Zone, one of the most seismically active areas of the central and eastern United States. The basin has been periodically active from its inception as a rift basin in the Proterozoic to the present and has accumulated up to at least 5,000 m of sediment, including up to at least 1 km of Cretaceous and Tertiary sedimentary strata near the head of the Mississippi Embayment. Structural and stratigraphic interpretations within the subsurface pre-Mesozoic part of the basin have been based almost entirely on geophysical and physical stratigraphic criteria; these interpretations have been loosely constrained due to an extreme sparsity of drillhole data through the Paleozoic sequence. Recent analysis of Cambrian and Ordovician fossils (conodonts, palynomorphs, brachiopods, and trilobites) from cuttings and core from a very few drillholes allows establishment of the beginnings of a verifiable stratigraphy for this part of the sequence. The paleontological data also provide (1) biofacies evidence for interpretations of the depositional setting during part of the Late Cambrian and Early Ordovician interval and (2) thermal maturation data pertaining to the post-depositional geothermal history of these strata.Upper Cambrian phosphatic brachiopods and trilobites provide improved correlations between strata in the basin, the Ozark shelf to the northwest, and the Upper Mississippi River Valley. Cold-water-realm palynomorphs and trilobites from siliciclastic rocks of turbiditic origin in the central part of the Reelfoot basin support an interpretation, based on sedimentary structures in a short interval of core, of a deep-water basinal origin for these strata.Lower Ordovician conodonts provide a biostratigraphy for the carbonate rocks of this part of the sequence; correlations can be made with the shallow-water sequences of the Knox, Prairie du Chien, and Arbuckle Groups, and the Ozark sequence of the adjacent shelf areas to the east, north, and west. The uppermost Lower Ordovician strata in the basin record a short-term incursion of cooler water environments, reflected by the character of both the conodont fauna and the lithofacies. The youngest Paleozoic dates known from the basin south of the Pascola arch are latest Ibexian (Early Ordovician).Thermal alteration indices of both the Cambrian palynomorphs (organic-walled microphytoplankton) and Ordovician conodonts in the deeper parts of the basin, corroborated by fluid inclusion thermometry, vitrinite reflectance, and other geochemical techniques, are of higher values than predicted using any published estimates of overburden burial. These maturation values most likely reflect burial enhanced by the passage of hydrothermal fluids on a regional scale; they place constraints on interpretations of the tectonothermal evolution of the basin.

Download Full-text

Identification of liquefaction and deformation features using ground penetrating radar in the New Madrid seismic zone, USA

Journal of Applied Geophysics ◽

10.1016/s0926-9851(01)00065-9 ◽

2001 ◽

Vol 47 (3-4) ◽

pp. 199-215 ◽

Cited By ~ 25

Author(s):

Lanbo Liu ◽

Yong Li

Keyword(s):

Ground Penetrating Radar ◽

New Madrid Seismic Zone ◽

Seismic Zone ◽

Deformation Features ◽

Ground Penetrating ◽

New Madrid

Download Full-text

Synsedimentary collapse of portions of the lower Blomidon Formation (Late Triassic), Fundy rift basin, Nova Scotia

Canadian Journal of Earth Sciences ◽

10.1139/e95-150 ◽

1995 ◽

Vol 32 (11) ◽

pp. 1965-1976 ◽

Cited By ~ 13

Author(s):

Rolf V. Ackermann ◽

Roy W. Schlische ◽

Paul E. Olsen

Keyword(s):

Nova Scotia ◽

Late Triassic ◽

Normal Faults ◽

Rift Basin ◽

Rift Basins ◽

Kink Bands ◽

Deformation Features ◽

Terrestrial Environments ◽

Sediment Deformation ◽

Fluvial Sandstone

A chaotic mudstone unit within the lower Blomidon Formation (Late Triassic) has been traced for 35 km in the Mesozoic Fundy rift basin of Nova Scotia. This unit is characterized by highly disrupted bedding that is commonly cut by small (<0.5 m) domino-style synsedimentary normal faults, downward movement of material, geopetal structures, variable thickness, and an irregular, partially faulted contact with the overlying unit. The chaotic unit is locally overlain by a fluvial sandstone, which is overlain conformably by mudstone. Although the thickness of the sandstone is highly variable, the overlying mudstone unit exhibits only gentle regional dip. The sandstone unit exhibits numerous soft-sediment deformation features, including dewatering structures, convoluted bedding, kink bands, and convergent fault fans. The frequency and intensity of these features increase dramatically above low points at the base of the sandstone unit. These stratigraphic relations suggest buried interstratal karst, the subsurface dissolution of evaporites bounded by insoluble sediments. We infer that the chaotic unit was formed by subsidence and collapse resulting from the dissolution of an evaporite bed or evaporite-rich unit by groundwater, producing dewatering and synsedimentary deformation structures in the overlying sandstone unit, which infilled surface depressions resulting from collapse. In coeval Moroccan rift basins, facies similar to the Blomidon Formation are associated with halite and gypsum beds. The regional extent of the chaotic unit indicates a marked period of desiccation of a playa lake of the appropriate water chemistry. The sedimentary features described here may be useful for inferring the former existence of evaporites or evaporite-rich units in predominantly clastic terrestrial environments.

Download Full-text