Article ID Journal Published Year Pages File Type
6428129 Earth and Planetary Science Letters 2015 9 Pages PDF
Abstract

•Aleutian Basin data constrain a crustal structure consistent with oceanic crust.•Crustal structure varies gradually across a change in magnetic lineations.•Crustal thickness varies from 6.2 to 9.6 km.•Seismic data supports a melt supply increasing from west to east.

We present two-dimensional P-wave velocity structure along two wide-angle ocean bottom seismometer profiles from the Aleutian basin in the Bering Sea. The basement here is commonly considered to be trapped oceanic crust, yet there is a change in orientation of magnetic lineations and gravity features within the basin that might reflect later processes. Line 1 extends ∼225 km from southwest to northeast, while Line 2 extends ∼225 km from northwest to southeast and crosses the observed change in magnetic lineation orientation. Velocities of the sediment layer increase from 2.0 km/s at the seafloor to 3.0-3.4 km/s just above basement, crustal velocities increase from 5.1-5.6 km/s at the top of basement to 7.0-7.1 km/s at the base of the crust, and upper mantle velocities are 8.1-8.2 km/s. Average sediment thickness is 3.8-3.9 km for both profiles. Crustal thickness varies from 6.2 to 9.6 km, with average thickness of 7.2 km on Line 1 and 8.8 km on Line 2. There is no clear change in crustal structure associated with a change in orientation of magnetic lineations and gravity features. The velocity structure is consistent with that of normal or thickened oceanic crust. The observed increase in crustal thickness from west to east is interpreted as reflecting an increase in melt supply during crustal formation.

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Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Earth and Planetary Sciences (General)
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