A high-resolution controlled-source seismic experiment to elucidate geologic controls on megathrust slip: the 2014 Pisagua, Chile earthquake sequence as a natural laboratory

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项目编号	1459368
	A high-resolution controlled-source seismic experiment to elucidate geologic controls on megathrust slip: the 2014 Pisagua, Chile earthquake sequence as a natural laboratory
	Anne Trehu
主持机构	Oregon State University
项目开始年	2016
	2016-02-01
项目结束日期	2019-01-31
资助机构	US-NSF
项目类别	Continuing grant
项目经费	365905(USD)
国家	美国
语种	英语
英文摘要	Subduction zones, where one tectonic plate plunges beneath another, are the birthplace of many of Earth's more destructive earthquakes and volcanoes. Numerous studies reveal patchiness in the distribution of slip during these earthquakes; patches with the greatest slip can occur in pattern that is the opposite of where patches characterized by aseismic deformation occur along the fault. On April 1, 2014, a magnitude 8.2 earthquake occurred offshore Chile near the town of Pisagua. This region was identified in 1991 as one of two major seismic gaps in Chile. In anticipation of a future great quake, the international Integrated Plate Boundary Observatory Chile project started installing onshore seismic and geodetic instrumentation in the Pisagua/Iquique gap in 2007. Because the slip history of the fault prior to, during, and after the earthquake was well recorded, the rupture pattern can be compared with crustal structure. The largest foreshock preceding the earthquake and the patch of greatest slip during the mainshock are associated with a local increase in subsurface density. The boundary of the Pisagua aftershock activity coincided with the southern boundary of the broader, regional density low. The portion of the seismic 'gap' that did not slip during the Pisagua quake is marked by a distinct density high, indicating an abrupt change in crustal structure. The objective this project is to collect marine geophysical data to elucidate the geologic significance of this correlation between a crustal structure and earthquake slip. This project also has an important educational component. Students from the US, Chile, Germany will participate in an shipboard course in seismic reflection data processing. Advances in geodetic techniques and an increase in the number of high-resolution seismic networks have brought remarkable advances in documenting the distribution of slip on subduction zone plate boundary faults prior to, during, and after great earthquakes. The main Pisagua shock was preceded by two distinct foreshock sequences that occurred in the month prior to the main shock, and it was followed by many aftershocks, the largest of which had Mw 7.8. The sequence only ruptured the northern half of the gap, leaving significant unreleased strain accumulation according to plate tectonic and geodetic locking models. This study will acquire and analyze marine seismic data to characterize the Pisagua earthquake source region. A large-volume tuned airgun array and multichannel streamer (MCS) and 90 short-period ocean bottom seismometers (OBS) operated by the US Ocean Bottom Seismometer Instrumentation Pool and the German marine research institute GEOMAR. A 3D tomographic P-wave velocity model and a grid of 2D deep-crustal seismic reflection profiles will be obtained. The velocity model and positions of reflective boundaries will be integrated with high-resolution bathymetric data to generate a geologic model of the crust that can be compared to the seismologically and geodetically-determined slip history prior to, during and after the earthquake. The program will be accomplished in two phases. During phase 1, imaging will target the region that slipped during the 2014 earthquake and acquire reconnaissance data from the remaining gap to optimize the field program for phase 2. Earthquakes recorded by this and other OBS and onshore arrays will be incorporated into the data set for 3D tomography to increase the depth extent of imaging and improve determination of S-wave velocities and Poisson's ratio. Partners in this project include Oregon State University, GEOMAR, and the Universidad de Chile.
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文献类型	项目
条目标识符	http://119.78.100.173/C666/handle/2XK7JSWQ/69103
专题	环境与发展全球科技态势
推荐引用方式 GB/T 7714	Anne Trehu.A high-resolution controlled-source seismic experiment to elucidate geologic controls on megathrust slip: the 2014 Pisagua, Chile earthquake sequence as a natural laboratory.2016.