The nature of the 660-kilometer discontinuity in Earth's mantle from global seismic observations of PP precursors

Arwen Deuss; Simon A. T. Redfern; Kit Chambers; John H. Woodhouse

doi:10.1126/science.1120020

The nature of the 660-kilometer discontinuity in Earth's mantle from global seismic observations of PP precursors

Arwen Deuss, Simon A. T. Redfern, Kit Chambers, John H. Woodhouse

non-UU output of DES-UU members

Utrecht University

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The 660-kilometer discontinuity, which separates Earth's upper and lower mantle, has been detected routinely on a global scale in underside reflections of precursors to SS shear waves. Here, we report observations of this discontinuity in many different regions, using precursors to compressional PP waves. The apparent absence of such precursors in previous studies had posed major problems for models of mantle composition. We find a complicated structure, showing single and double reflections ranging in depth from 640 to 720 kilometers, that requires the existence of multiple phase transitions at the base of the transition zone. The results are consistent with a pyrolite mantle composition.

Original language	English
Pages (from-to)	198-201
Number of pages	4
Journal	Science
Volume	311
Issue number	5758
DOIs	https://doi.org/10.1126/science.1120020
Publication status	Published - 13 Jan 2006

Keywords

perovskite
pyrolytic carbon
article
basalt
compression
data analysis
earth mantle
geology
observation
phase transition
physics
pp wave
priority journal
shear stress
structure analysis
thermodynamics
topography
waveform

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title = "The nature of the 660-kilometer discontinuity in Earth's mantle from global seismic observations of PP precursors",

abstract = "The 660-kilometer discontinuity, which separates Earth's upper and lower mantle, has been detected routinely on a global scale in underside reflections of precursors to SS shear waves. Here, we report observations of this discontinuity in many different regions, using precursors to compressional PP waves. The apparent absence of such precursors in previous studies had posed major problems for models of mantle composition. We find a complicated structure, showing single and double reflections ranging in depth from 640 to 720 kilometers, that requires the existence of multiple phase transitions at the base of the transition zone. The results are consistent with a pyrolite mantle composition.",

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T1 - The nature of the 660-kilometer discontinuity in Earth's mantle from global seismic observations of PP precursors

AU - Deuss, Arwen

AU - Redfern, Simon A. T.

AU - Chambers, Kit

AU - Woodhouse, John H.

PY - 2006/1/13

Y1 - 2006/1/13

N2 - The 660-kilometer discontinuity, which separates Earth's upper and lower mantle, has been detected routinely on a global scale in underside reflections of precursors to SS shear waves. Here, we report observations of this discontinuity in many different regions, using precursors to compressional PP waves. The apparent absence of such precursors in previous studies had posed major problems for models of mantle composition. We find a complicated structure, showing single and double reflections ranging in depth from 640 to 720 kilometers, that requires the existence of multiple phase transitions at the base of the transition zone. The results are consistent with a pyrolite mantle composition.

AB - The 660-kilometer discontinuity, which separates Earth's upper and lower mantle, has been detected routinely on a global scale in underside reflections of precursors to SS shear waves. Here, we report observations of this discontinuity in many different regions, using precursors to compressional PP waves. The apparent absence of such precursors in previous studies had posed major problems for models of mantle composition. We find a complicated structure, showing single and double reflections ranging in depth from 640 to 720 kilometers, that requires the existence of multiple phase transitions at the base of the transition zone. The results are consistent with a pyrolite mantle composition.

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KW - pyrolytic carbon

KW - article

KW - basalt

KW - compression

KW - data analysis

KW - earth mantle

KW - geology

KW - observation

KW - phase transition

KW - physics

KW - pp wave

KW - priority journal

KW - shear stress

KW - structure analysis

KW - thermodynamics

KW - topography

KW - waveform

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DO - 10.1126/science.1120020

M3 - Article

SN - 0036-8075

VL - 311

SP - 198

EP - 201

JO - Science

JF - Science

IS - 5758

ER -

The nature of the 660-kilometer discontinuity in Earth's mantle from global seismic observations of PP precursors

Abstract

Keywords

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