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New constraints on northeast Seattle basin structure from converted seismic waves

March 18, 2026

The Seattle basin is a deep sedimentary basin in the Seattle–Bellevue, Washington metropolitan area within the Puget Lowland of Washington State. We determine the structure of a portion of the basin and the underlying basement using analysis of P waves converted from direct S incident from below. A deep local crustal event beneath Monroe, about 35 km northeast of Seattle, was recorded by a 100‐station nodal array deployed in 2019. The event produced a variety of coherent seismic phases, including converted waves from the sediment—basement boundary, internal structure within the basin, and additional crustal discontinuities. Using observed Sp converted waves, we apply an adjoint‐based full waveform inversion (FWI) method to determine the amplitude and extent of seismic discontinuities at depth. We find the strongest source of converted waves for this event lies ∼6 to 7 km depth below northern Lake Washington, interpreted to be the local depth to basement rock. The newly imaged shallow basement structure may be part of a deformation zone associated with the Siletzia eastern boundary. Our results highlight the utility of converted seismic waves recorded by a dense array, combined with an FWI method, to illuminate crustal structure.

Publication Year 2026
Title New constraints on northeast Seattle basin structure from converted seismic waves
DOI 10.1785/0320250056
Authors Frederick Pollitz, Ian P. Stone, Audrey Dunham, Erin A. Wirth
Publication Type Article
Publication Subtype Journal Article
Series Title The Seismic Record
Index ID 70276913
Record Source USGS Publications Warehouse
USGS Organization Earthquake Science Center
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