Neotectonic and Paleoseismic Analysis of the Northwest Extent of Holocene Surface Deformation along the Meers Fault, Oklahoma

IF 2.6 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
K. Hornsby, A. Streig, S. Bennett, Jefferson C. Chang, S. Mahan
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引用次数: 7

Abstract

TheMeers fault (Oklahoma) is one of few seismogenic structureswith evidence for Holocene surface rupture in the stable continental region of North America. The 37-kilometer-long southeast section of the full 54-kilometer-long Meers fault is interpreted to be Holocene active. The 17-kilometer-long northwest section is considered Quaternary active, but not Holocene active. We reevaluate surface expression and earthquake timing of the northwest Meers fault to improve seismic source characterization. We use airborne light detection and ranging and historical stereopaired aerial photos to evaluate the fault scarp and local faultzone geomorphology. In the northwest, complex surface deformation includes fault splays, subtle monoclinal warping, and a minor change in fault strike. We interpret that the alongstrike transition from surface faulting on the southeast Meers fault to surface folding on the northwest Meers fault occurs at the lithologic contact between Permian Post Oak conglomerate and Hennessey shale. We excavated a paleoseismic trench to evaluate the timing of surface-deforming earthquakes on the northwest section of the fault. The excavation revealed weathered Permian Hennessey shale and an ∼1–2-meter-thick veneer of Holocene alluvial deposits that were progressively deformed during two surface-folding earthquakes likely related to blind fault rupture beneath the site. Repeated onlapping to overlapping stratigraphic sequences and associated unconformities are intimately related to folding events along the monocline. OxCal paleoearthquake age modeling indicates that earthquakes occurred 4704–3109 yr B.P. and 5955–4744 yr B.P., and that part of the northwest section of the Meers fault is Holocene active. We find the Holocene-active section of the Meers fault should be lengthened 6.1 km to the northwest, to a total Holocene-active fault length of 43 km. Empirical scaling relationships between surface rupture length and magnitude reveal that the fault could generate an Mw 7.0 earthquake.
俄克拉何马州Meers断裂带全新世地表变形西北范围的新构造和古地震分析
俄克拉何马州的米尔斯断层是北美稳定大陆地区少有的具有全新世地表破裂证据的发震构造之一。整个54公里长的Meers断层的37公里长的东南段被解释为全新世活动。17公里长的西北剖面被认为是第四纪活动,但不是全新世活动。我们重新评估了西北Meers断层的地表表现和地震时间,以改进震源特征。利用航空光探测测距和历史立体影像对断裂带和局部断裂带地貌进行了评价。在西北地区,复杂的地表变形包括断层展布、轻微的单斜翘曲和断层走向的微小变化。我们认为,沿走向过渡发生在二叠纪后奥克砾岩与Hennessey页岩的岩性接触处,由Meers断裂东南部的地表断裂向Meers断裂西北部的地表褶皱过渡。我们挖掘了一条古地震沟,以评价断层西北段地表变形地震的时间。挖掘发现了风化的二叠纪Hennessey页岩和1 - 2米厚的全新世冲积沉积层,这些沉积层在两次表面褶皱地震中逐渐变形,可能与该遗址下方的盲断层破裂有关。叠置层序的反复叠加及其不整合面与单斜褶皱事件密切相关。OxCal古地震年龄模拟表明,地震发生在4704 ~ 3109年B.P.和5955 ~ 4744年B.P., Meers断裂西北段部分为全新世活动。我们发现,米尔斯断裂的全新世活动段应向西北延长6.1 km,使全新世活动断裂的总长度达到43 km。地表破裂长度与震级之间的经验尺度关系表明,该断层可能产生7.0级地震。
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来源期刊
Bulletin of the Seismological Society of America
Bulletin of the Seismological Society of America 地学-地球化学与地球物理
CiteScore
5.80
自引率
13.30%
发文量
140
审稿时长
3 months
期刊介绍: The Bulletin of the Seismological Society of America, commonly referred to as BSSA, (ISSN 0037-1106) is the premier journal of advanced research in earthquake seismology and related disciplines. It first appeared in 1911 and became a bimonthly in 1963. Each issue is composed of scientific papers on the various aspects of seismology, including investigation of specific earthquakes, theoretical and observational studies of seismic waves, inverse methods for determining the structure of the Earth or the dynamics of the earthquake source, seismometry, earthquake hazard and risk estimation, seismotectonics, and earthquake engineering. Special issues focus on important earthquakes or rapidly changing topics in seismology. BSSA is published by the Seismological Society of America.
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