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1

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Geophysical inferences of thermal-chemical structures in the lower mantle (1993)

Matyska, C. ; Yuen, D. A. ; Chopelas, A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Lateral variations of the temperature field in the lower mantle have been reconstructed using new results in mineral physics and seismic tomographic data. We show that, with the application of high-pressure experimental values of thermal expansivity and of sound velocities, the slow seismic anomalies in the lower mantle under the Pacific and Africa can be converted into realistic-looking plume structures with large dimensions of 0(1000 km). The outer fringes of the plumes have an excess temperature of around 400 K. In the core of the plumes are found tonguelike structures with extremely high thermal anomalies. These values can exceed 1200 K and are too high to be explained on the basis of thermal anomalies alone. We suggest that these major plumes in the deep mantle may be driven by both thermal and chemical buoyancies or that enhanced conductive heat-transfer may be important there.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 20; 10; p. 899-902.

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2

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Three-dimensional instabilities of mantle convection with multiple phase transitions (1993)

Yuen, D. A. ; Honda, S. ; Balachandar, S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The effects of multiple phase transitions on mantle convection are investigated by numerical simulations that are based on three-dimensional models. These simulations show that cold sheets of mantle material collide at junctions, merge, and form a strong downflow that is stopped temporarily by the transition zone. The accumulated cold material gives rise to a strong gravitational instability that causes the cold mass to sink rapidly into the lower mantle. This process promotes a massive exchange between the lower and upper mantles and triggers a global instability in the adjacent plume system. This mechanism may be cyclic in nature and may be linked to the generation of superplumes.

Keywords: GEOPHYSICS

Type: Science (ISSN 0036-8075); 259; 5099; p. 1308-1311.

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3

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Time-domain approach for the transient responses in stratified viscoelastic Earth models (1995)

Matyska, C. ; Hanyk, L. ; Yuen, D. A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: We have developed the numerical algorithm for the computation of transient viscoelastic responses in the time domain for a radially stratified Earth model. Stratifications in both the elastic parameters and the viscosity profile have been considered. The particular viscosity profile employed has a viscosity maximum with a constrast of O(100) in the mid lower mantle. The distribution of relaxation times reveals the presence of a continuous spectrum situated between O(100) and O(exp 4) years. The principal mode is embedded within this continuous spectrum. From this initial-value approach we have found that for the low degree harmonics the non-modal contributions are comparable to the modal contributions. For this viscosity model the differences between the time-domain and normal-mode results are found to decrease strongly with increasing angular order. These calculations also show that a time-dependent effective relaxation time can be defined, which can be bounded by the relaxation times of the principal modes.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 22; 10; p. 1285-1288

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4

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Lower mantle thermal structure deduced from seismic tomography, mineral physics and numerical modelling (1994)

Steinbach, V. ; Chopelas, A. ; Cadek, O. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The long-wavelength thermal anomalies in the lower mantle have been mapped out using several seismic tomographic models in conjunction with thermodynamic parameters derived from high-pressure mineral physics experiments. These parameters are the depth variations of thermal expansivity and of the proportionality factor between changes in density and seismic velocity. The giant plume-like structures in the lower mantle under the Pacific Ocean and Africa have outer fringes with thermal anomalies around 300-400 K, but very high temperatures are found in the center of the plumes near the base of the core-mantle boundary. These extreme values can exceed +1500 K and may reflect large hot thermal anomalies in the lower mantle, which are supported by recent measurements of high melting temperatures of perovskite and iron. Extremely cold anomalies, around -1500 K, are found for anomalies in the deep mantle around the Pacific rim and under South America. Numerical simulations show that large negative thermal anomalies in the mid-lower mantle have modest magnitudes of around -500 K. correlation pattern exists between the present-day locations of cold masses in the lower mantle and the sites of past subduction since the Cretaceous. Results from correlation analysis show that the slab mass-flux in the lower mantle did not conform to a steady-state nature but exhibited time-dependent behavior.

Keywords: GEOPHYSICS

Type: Earth and Planetary Science Letters (ISSN 0012-821X); 121; 3/4; p. 385-402

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5

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Lower-mantle viscosity constrained by seismicity around deglaciated regions (1991)

Spada, G. ; Yuen, D. A. ; Sabadini, R. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: It is shown here that seismicity around the margins of deglaciated areas provides a constraint on the viscosity of the lower mantle. Calculations using a spherical, viscoelastic earth model show that the present-day magnitude of the stress fields induced in the lithosphere beneath the Laurentide and Fennoscandian ice sheets is very sensitive to the value of the lower-mantle viscosity. Stress of about 100 bar, sufficient to cause seismicity, can still remain in the lithosphere for lower-mantle viscosities greater than about 10 to the 22nd Pa-s; for lower-mantle viscosities of about 10 to the 21st Pa-s, only a few tens of bars of stress persist in the lithosphere today. This influence of lower-mantle viscosity on the state of stress in the lithosphere also has implications for the migration of stress from earthquakes, and hence for earthquake recurrence times.

Keywords: GEOPHYSICS

Type: Nature (ISSN 0028-0836); 351; 53-55

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6

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The role of a pressure-dependent rheology in the dynamics of mantle circulation (1985)

Fleitout, L. ; Yuen, D. A.

In: CASI

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Publication Date: 2016-06-07

Description: A thermomechanical model for upper mantle convection was constructed such that the thickness and the structure of the lithosphere are determined self consistently by the heat transported by convection. In this study of the interaction between the lithosphere and upper mantle, strongly temperature and pressure dependent rheologies for both Newtonian and non-Newtonian creep mechanisms are employed. For a strictly temperature dependent rheology an insignificant amount of heat, less than 12.5 mW/sq m, can be transported convectively for an interior viscosity, 0(10 sup 21 Pas), compatible with post glacial rebound. On the other hand, for similar values of the interior viscosity, steady heat fluxes between 20 and 40 mW/sq m are produced by introducing pressure dependence into the rheology. For the temperature and pressure dependent flow law the horizontally averaged interior temperature displays very little variation with the amount of heat evacuated, once all of the rheological parameters are fixed. This finding may have important ramifications for parameterized convection.

Keywords: GEOPHYSICS

Type: NASA, Washington Geopotential Res. Mission (GRM); p 66-67

Format: application/pdf

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7

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Development of diapiric structures in the upper mantle due to phase transitions (1991)

Liu, M. ; Honda, S. ; Zhao, W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Solid-state phase transition in time-dependent mantle convection can induce diapiric flows in the upper mantle. When a deep mantle plume rises toward phase boundaries in the upper mantle, the changes in the local thermal buoyancy, local heat capacity, and latent heat associated with the phase change at a depth of 670 kilometers tend to pinch off the plume head from the feeding stem and form a diapir. This mechanism may explain episodic hot spot volcanism. The nature of the multiple phase boundaries at the boundary between the upper and lower mantle may control the fate of deep mantle plumes, allowing hot plumes to go through and retarding the tepid ones.

Keywords: GEOPHYSICS

Type: Science (ISSN 0036-8075); 252; 1836-183

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8

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Internal heating and thermal constraints on the mantle (1989)

Leitch, A. M. ; Yuen, D. A.

In: Other Sources

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Publication Date: 2011-08-19

Description: Numerical simulations have been carried out to study the average temperature and thermal structure of an internally heated mantle. It is found that in an incompressible mantle the hottest parts are localized in regions of slow flow in the middle and upper mantle, whereas in a compressible mantle they occur over laterally extensive regions near the core-mantle boundary (CMB). For chondritic concentrations of heat-producing elements (hpe's), the average thermal conductivity in the mantle must be high to avoid heating the core, and the temperature of the CMB is low to avoid large-scale melting. The mantle may have been extensively molten in the Archaean.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 16; 1407-141

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9

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Constraints on short-term mantle rheology from the J2 observation and the dispersion of the 18.6 y tidal Love number (1985)

Widmer, R. ; Yuen, D. A. ; Sabadini, R.

In: Other Sources

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Publication Date: 2019-06-28

Description: Information derived from data recently acquired from the LAGEOS satellite is used to place some constraints on the rheological parameters of short-term mantle rheology. The validity of Lambeck and Nakiboglu's (1983) rheological model is assessed by formally developing an expression for the transformed shear modulus using a truncated retardation spectrum. This analytical formula is used to show that the parameters of the above mentioned model are not consistent at all with the amount of anelastic dispersion expected in the Chandler wobble and with the attenuation of seismic normal modes. The feasibility of a standard linear solid (SLS) rheology operating over intermediate timescales between 1 and 100 yr is investigated to determine whether the tidal dispersion at 18.6 yr can be explained by this model. An attempt is made to place some constraints on the parameters of the SLS model and the nature of short-term mantle rheology for timescales of less than 100 yr is discussed.

Keywords: GEOPHYSICS

Type: Physics of the Earth and Planetary Interiors (ISSN 0031-9201); 38; 235-249

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10

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The effects of transient rheology on the interpretation of lower mantle viscosity (1985)

Sabadini, R. ; Gasperini, P. ; Yuen, D. A.

In: Other Sources

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Publication Date: 2019-06-28

Description: The role played by transient rheology in the interpretation of mantle viscosity is reexamined. The investigation has been carried out by comparing the amplitude responses with the data of secular variation of J(2), the relative sea-level histories at sites well within the ice margins and at the ice margin like the city of Boston. A linear Burgers body rheology has been assumed in ther lower mantle. The data near the edge of the ice load proves most sensitive to the transient viscosity structure. The non-monotonic behavior of sea-level data near Boston can be explained both by a steady-state lower mantle viscosity of 10 to the 22nd P with a thick lithosphere and by a transient lower mantle rheology but with a thin lithosphere. The long-term viscosity of the lower mantle in this second model has a steady-state value of around 5 x 10 to the 23rd P.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 12; 361-364

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