Changes in Seismic Anisotropy Shed Light on the Nature of the Gutenberg Discontinuity | Zendy

Caroline Beghein | Zendy; Kaiqing Yuan | Zendy; N. C. Schmerr | Zendy; Zheng Xing | Zendy

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Changes in Seismic Anisotropy Shed Light on the Nature of the Gutenberg Discontinuity

Author(s) -

Caroline Beghein,

Kaiqing Yuan,

N. C. Schmerr,

Zheng Xing

Publication year - 2014

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.1246724

Subject(s) - asthenosphere , geology , discontinuity (linguistics) , lithosphere , geophysics , mantle (geology) , anisotropy , plate tectonics , seismology , stratification (seeds) , tectonics , seismic anisotropy , classification of discontinuities , seed dormancy , mathematical analysis , physics , germination , mathematics , botany , quantum mechanics , dormancy , biology

The boundary between the lithosphere and asthenosphere is associated with a platewide high-seismic velocity "lid" overlying lowered velocities, consistent with thermal models. Seismic body waves also intermittently detect a sharp velocity reduction at similar depths, the Gutenberg (G) discontinuity, which cannot be explained by temperature alone. We compared an anisotropic tomography model with detections of the G to evaluate their context and relation to the lithosphere-asthenosphere boundary (LAB). We find that the G is primarily associated with vertical changes in azimuthal anisotropy and lies above a thermally controlled LAB, implying that the two are not equivalent interfaces. The origin of the G is a result of frozen-in lithospheric structures, regional compositional variations of the mantle, or dynamically perturbed LAB.

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