2014
DOI: 10.1002/2014gc005444
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Reconciling mantle attenuation-temperature relationships from seismology, petrology, and laboratory measurements

Abstract: Seismic attenuation measurements provide a powerful tool for sampling mantle properties.Laboratory experiments provide calibrations at seismic frequencies and mantle temperatures for dry meltfree rocks, but require $10 2 210 3 extrapolations in grain size to mantle conditions; also, the effects of water and melt are not well understood. At the same time, body wave attenuation measured from dense broadband arrays provides reliable estimates of shear wave attenuation (Q 21 S ), affording an opportunity for calib… Show more

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Cited by 82 publications
(114 citation statements)
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“…The discrepancy may partly arise from differences in lateral resolution between our body wave data and laterally averaged surface wave attenuation, but the faster-spreading EPR may also be less attenuating overall than the JdF. The lowest previously observed values of mantle Q S < 25 were imaged at the Lau back-arc ( 26 ). …”
Section: Discussionmentioning
confidence: 77%
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“…The discrepancy may partly arise from differences in lateral resolution between our body wave data and laterally averaged surface wave attenuation, but the faster-spreading EPR may also be less attenuating overall than the JdF. The lowest previously observed values of mantle Q S < 25 were imaged at the Lau back-arc ( 26 ). …”
Section: Discussionmentioning
confidence: 77%
“…Incorporating mineral physics arguments that scale diffusion creep rates to attenuation ( 17 , 26 ), the values of Q S in our model correspond to at least a ~150 × viscosity reduction between depths of 50 and 150 km (Table 1). Although this quantitative estimate is linked to several assumptions in our model, a qualitative weakening effect of partial melt at the grain boundaries is well established for crystalline aggregates ( 40 ).…”
Section: Discussionmentioning
confidence: 95%
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“…These attenuation predictions are based on the calibrations ofJackson and Faul (2010) modified to include the effects of H 2 O as defects in olivine and of variable grain size, followingAbers et al (2014). These attenuation predictions are based on the calibrations ofJackson and Faul (2010) modified to include the effects of H 2 O as defects in olivine and of variable grain size, followingAbers et al (2014).…”
mentioning
confidence: 99%