scholarly article | Q13442814 |
P819 | ADS bibcode | 2018JGRB..123.7237L |
P356 | DOI | 10.1029/2018JB015740 |
P50 | author | Jacqueline Austermann | Q57893552 |
Jerry X. Mitrovica | Q68572471 | ||
P2093 | author name string | H. C. P. Lau | |
J. Austermann | |||
D. Al-Attar | |||
K. Latychev | |||
O. Crawford | |||
P2860 | cites work | Compositional mantle layering revealed by slab stagnation at ~1000-km depth | Q27336157 |
The Last Glacial Maximum | Q28254056 | ||
GLOBAL GLACIAL ISOSTASY AND THE SURFACE OF THE ICE-AGE EARTH: The ICE-5G (VM2) Model and GRACE | Q30048617 | ||
Viscosity jump in Earth's mid-mantle. | Q53181373 | ||
Preliminary reference Earth model | Q55868389 | ||
Glacial isostatic adjustment and the radial viscosity profile from inverse modeling | Q55879757 | ||
Generalized nonlinear inverse problems solved using the least squares criterion | Q56532217 | ||
Late Pleistocene and Holocene sea-level change in the Australian region and mantle rheology | Q56785132 | ||
Sensitivity of relative sea levels and crustal velocities in Laurentide to radial and lateral viscosity variations in the mantle | Q57507796 | ||
Three-dimensional finite-element modeling of the glacial isostatic adjustment in Fennoscandia | Q57507803 | ||
Postglacial sealevels on a spherical, self-gravitating viscoelastic earth: effects of lateral viscosity variations in the upper mantle on the inference of viscosity contrasts in the lower mantle | Q57507844 | ||
Glacial isostatic adjustment in Fennoscandia with a three-dimensional viscosity structure as an inverse problem | Q57507866 | ||
The importance of grain size to mantle dynamics and seismological observations | Q57852073 | ||
A hierarchical mesh refinement technique for global 3-D spherical mantle convection modelling | Q57852874 | ||
Influence of continental roots and asthenosphere on plate-mantle coupling | Q57879025 | ||
A reappraisal of postglacial decay times from Richmond Gulf and James Bay, Canada | Q57885636 | ||
The impact of dynamic topography change on Antarctic ice sheet stability during the mid-Pliocene warm period | Q58083326 | ||
Effect of GIA models with 3D composite mantle viscosity on GRACE mass balance estimates for Antarctica | Q58110019 | ||
Sea Level Fingerprints in a Region of Complex Earth Structure: The Case of WAIS | Q58117677 | ||
Impact of 3-D Earth structure on Fennoscandian glacial isostatic adjustment: Implications for space-geodetic estimates of present-day crustal deformations | Q58120366 | ||
Dynamic topography, gravity and the role of lateral viscosity variations from inversion of global mantle flow | Q58233340 | ||
Effects of lateral viscosity variations on the geoid | Q58479407 | ||
Seismic evidence for a 920-km discontinuity in the mantle | Q59056462 | ||
Complex morphology of subducted lithosphere in the mantle beneath the Tonga trench | Q59099364 | ||
The continental lithosphere: Reconciling thermal, seismic, and petrologic data | Q59852414 | ||
Subducting slabs stagnant in the mantle transition zone | Q60568852 | ||
Glacial isostatic adjustment on 3-D Earth models: a finite-volume formulation | Q60703235 | ||
Quantifying the sensitivity of post-glacial sea level change to laterally varying viscosity | Q60704576 | ||
Forward and inverse modelling of post-seismic deformation | Q60704581 | ||
Sensitivity kernels for viscoelastic loading based on adjoint methods | Q60704594 | ||
Surface loading of a viscoelastic planet--III. Aspherical models | Q60704642 | ||
An inversion for radial viscosity structure using seismic tomography | Q60714427 | ||
Lateral heterogeneities in mantle viscosity and post-glacial rebound | Q60715355 | ||
Barbados-based estimate of ice volume at Last Glacial Maximum affected by subducted plate | Q61687703 | ||
Viscosity structure of Earth's mantle inferred from rotational variations due to GIA process and recent melting events | Q64107403 | ||
Influence of combined primordial layering and recycled MORB on the coupled thermal evolution of Earth's mantle and core | Q87751263 | ||
Bayesian inference in geomagnetism | Q107115742 | ||
S40RTS: a degree-40 shear-velocity model for the mantle from new Rayleigh wave dispersion, teleseismic traveltime and normal-mode splitting function measurements | Q107297146 | ||
P433 | issue | 9 | |
P921 | main subject | neurological neglect syndrome | Q1974371 |
P304 | page(s) | 7237-7252 | |
P577 | publication date | 2018-09-01 | |
P1433 | published in | Journal of Geophysical Research: Solid Earth | Q27726642 |
P1476 | title | Inferences of Mantle Viscosity Based on Ice Age Data Sets: The Bias in Radial Viscosity Profiles Due to the Neglect of Laterally Heterogeneous Viscosity Structure | |
P478 | volume | 123 |
Search more.