Data Catalog

All datasets are downloaded on demand and verified via SHA256 hashes.

import gdrift

# Reference Earth model
prem = gdrift.PreliminaryRefEarthModel()

# Solidus profile
solidus = gdrift.RadialEarthModelFromFile("1d_solidus_Andrault_et_al_2011_EPSL")

# Thermodynamic model
thermo = gdrift.ThermodynamicModel("SLB_21", "pyroliteCFMAS")

# Seismic tomography model
seismic = gdrift.SeismicModel("3d_seismic_S40RTS")

Citations

When using datasets from gdrift, please cite both the original publication and the gdrift package. Each dataset entry below includes the original citation with a DOI link where available. In addition, please cite:

Ghelichkhan, S. (2025). gdrift: Geodynamics Data Reformatting and Integration Facilitation Toolkit. github.com/g-adopt/g-drift

The metadata for all datasets, including citation information, is maintained in the datasets.json manifest that ships with the package. If you notice any missing or incorrect citation, please open an issue on the GitHub repository.

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Tomography Model Gallery

Cross-sections follow a 72° great-circle arc along the 0° meridian from Eq to 12°N (see reference map below). Regional models show a depth slice at the model's mid-depth.

dVs Models

HMSL-S06 Global

SEISGLOB2 Global

SGLOBE-rani Global

SP12RTS Global

TX2000 Global

TX2019slab Global

dVp Models

GAP Global

HMSL-P06 Global

LLNL-G3Dv3 Global

MITP08 Global

OJP Global

SP12RTS Global

TX2019slab Global

Vs Models

ANT-20 Regional

Aus22 Regional

F2010-Afr Regional

FR12 Regional

GyPSuM Global

HMSL-S06 Global

LLNL-G3D-JPS Global

MITS-18 Regional

S20RTS Global

S362ANI Global

S362ANI+M Global

S362WMANI Global

S40RTS Global

SAVANI Global

SAW24B16 Global

SAW642AN Global

SAW642ANb Global

SEMUCB-WM1 Global

SEMum Global

SEMUM2 Global

SMEAN Global

SPani Global

TX2011 Global

Vp Models

AuSREM Regional

DETOX-P02 Global

GyPSuM Global

HMSL-P06 Global

LLNL-G3Dv3 Global

MITP08 Global

PMEAN Global

SAW642AN Global

SAW642ANb Global

SPani Global

Vsv Models

3D2015-07Sv Global

AF2019 Regional

AuSREM Regional

CAM2016 Global

CSEM-2019 Global

FR12 Regional

PM13 Global

REVEAL Global

S20RTS Global

S362ANI Global

S362ANI+M Global

S362WMANI Global

S40RTS Global

SA2019 Regional

SAVANI Global

SEMUCB-WM1 Global

SEMUM2 Global

SGLOBE-rani Global

SL2013NA Regional

SL2013sv Global

SL2013sv-uninterp Global

SMEAN Global

SPani Global

Y14 Regional

Vsh Models

AuSREM Regional

REVEAL Global

S20RTS Global

S362ANI Global

S362ANI+M Global

S362WMANI Global

S40RTS Global

SAVANI Global

SEMUCB-WM1 Global

SEMUM2 Global

SGLOBE-rani Global

SMEAN Global

SPani Global

Vpv Models

PMEAN Global

REVEAL Global

SPani Global

Vph Models

PMEAN Global

SPani Global

qs Models

SAW642AN Global

SAW642ANb Global

rho Models

REVEAL Global

SAW642AN Global

SAW642ANb Global

xi Models

SEMum Global

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Data Catalog

Auto-generated on 2026-02-22 01:43 UTC

Summary

Total datasets: 106 Complete metadata: 83 (78.3%) With DOI: 95 (89.6%)

Datasets by Type

Type	Count
Earth Model	2
Geodynamic Profile	1
Solidus Profile	2
Thermodynamic Model	54
Tomography Model	47

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Reference Earth Models (2 datasets)

1d_prem

Citation: Dziewonski, A. M., & Anderson, D. L. (1981). Dziewonski, Adam M., and Don L. Anderson. 'Preliminary reference Earth model.' Physics of the earth and planetary interiors 25.4 (1981): 297-356.. DOI: 10.1016/0031-9201(81)90046-7

Description: Preliminary Reference Earth Model (PREM) - a 1D reference model of Earth's interior

Usage: gdrift.PREM("1d_prem")

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Solidus Temperature Profiles (2 datasets)

1d_solidus_Andrault_et_al_2011_EPSL

Citation: Andrault, D., Bolfan-Casanova, N., Lo Nigro, G., Bouhifd, M. A., Garbarino, G., & Mezouar, M. (2011). Andrault, Denis, et al. 'Solidus and liquidus profiles of chondritic mantle: Implication for melting of the Earth across its history.' Earth and pl.... DOI: 10.1016/j.epsl.2011.02.006

Description: Solidus profile from Andrault et al. 2011

Usage: gdrift.RADIAL_EARTH_MODEL("1d_solidus_Andrault_et_al_2011_EPSL")

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1d_solidus_Fiquet_et_al_2010_SCIENCE

Citation: Fiquet, G., Auzende, A. L., Siebert, J., Corgne, A., Bureau, H., Ozawa, H., & Garbarino, G. (2010). Fiquet, G., et al. "Melting of peridotite to 140 gigapascals." Science 329.5998 (2010): 1516-1518.. DOI: 10.1126/science.1192448

Description: Solidus profile from Fiquet et al. 2010

Usage: gdrift.RADIAL_EARTH_MODEL("1d_solidus_Fiquet_et_al_2010_SCIENCE")

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Geodynamic Profiles (1 datasets)

1d_geodynamic_SLB21_pyroliteCFMAS

Citation: Ghelichkhan, S., Hoggard, M. J., & Austermann, J. (2021). Ghelichkhan, S., et al. Geodynamic adiabatic profiles computed from SLB 2021 pyrolite (CFMAS).

Description: 1D geodynamic adiabatic profiles computed from the SLB 2021 pyrolite CFMAS thermodynamic model

Usage: gdrift.RADIAL_EARTH_MODEL("1d_geodynamic_SLB21_pyroliteCFMAS")

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Thermodynamic Models (54 datasets)

SLB_08_bulk-oceanic-crustCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for bulk-oceanic-crust (CFMAS)

Composition: bulk-oceanic-crust Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_08_bulk-oceanic-crustCFMAS")

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SLB_08_bulk-oceanic-crustCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for bulk-oceanic-crust (CFMS)

Composition: bulk-oceanic-crust Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_08_bulk-oceanic-crustCFMS")

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SLB_08_bulk-oceanic-crustFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for bulk-oceanic-crust (FMAS)

Composition: bulk-oceanic-crust Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_08_bulk-oceanic-crustFMAS")

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SLB_08_bulk-oceanic-crustFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for bulk-oceanic-crust (FMS)

Composition: bulk-oceanic-crust Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_08_bulk-oceanic-crustFMS")

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SLB_08_bulk-oceanic-crustMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for bulk-oceanic-crust (MS)

Composition: bulk-oceanic-crust Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_08_bulk-oceanic-crustMS")

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SLB_08_depleted-mantleCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for depleted-mantle (CFMAS)

Composition: depleted-mantle Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_08_depleted-mantleCFMAS")

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SLB_08_depleted-mantleCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for depleted-mantle (CFMS)

Composition: depleted-mantle Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_08_depleted-mantleCFMS")

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SLB_08_depleted-mantleFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for depleted-mantle (FMAS)

Composition: depleted-mantle Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_08_depleted-mantleFMAS")

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SLB_08_depleted-mantleFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for depleted-mantle (FMS)

Composition: depleted-mantle Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_08_depleted-mantleFMS")

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SLB_08_depleted-mantleMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for depleted-mantle (MS)

Composition: depleted-mantle Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_08_depleted-mantleMS")

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SLB_08_pyroliteCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for pyrolite (CFMAS)

Composition: pyrolite Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_08_pyroliteCFMAS")

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SLB_08_pyroliteCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for pyrolite (CFMS)

Composition: pyrolite Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_08_pyroliteCFMS")

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SLB_08_pyroliteFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for pyrolite (FMAS)

Composition: pyrolite Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_08_pyroliteFMAS")

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SLB_08_pyroliteFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for pyrolite (FMS)

Composition: pyrolite Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_08_pyroliteFMS")

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SLB_08_pyroliteMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2008). Xu, W.; Lithgow-Bertelloni, C.; Stixrude, L.; Ritsema, J. "The effect of bulk composition and temperature on mantle seismic structure", Earth and P.... DOI: 10.1016/j.epsl.2008.08.012

Description: SLB 08 thermodynamic model for pyrolite (MS)

Composition: pyrolite Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_08_pyroliteMS")

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SLB_11_bulk-oceanic-crustCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for bulk-oceanic-crust (CFMAS)

Composition: bulk-oceanic-crust Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_11_bulk-oceanic-crustCFMAS")

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SLB_11_bulk-oceanic-crustCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for bulk-oceanic-crust (CFMS)

Composition: bulk-oceanic-crust Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_11_bulk-oceanic-crustCFMS")

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SLB_11_bulk-oceanic-crustFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for bulk-oceanic-crust (FMAS)

Composition: bulk-oceanic-crust Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_11_bulk-oceanic-crustFMAS")

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SLB_11_bulk-oceanic-crustFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for bulk-oceanic-crust (FMS)

Composition: bulk-oceanic-crust Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_11_bulk-oceanic-crustFMS")

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SLB_11_bulk-oceanic-crustMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for bulk-oceanic-crust (MS)

Composition: bulk-oceanic-crust Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_11_bulk-oceanic-crustMS")

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SLB_11_depleted-mantleCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for depleted-mantle (CFMAS)

Composition: depleted-mantle Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_11_depleted-mantleCFMAS")

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SLB_11_depleted-mantleCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for depleted-mantle (CFMS)

Composition: depleted-mantle Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_11_depleted-mantleCFMS")

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SLB_11_depleted-mantleFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for depleted-mantle (FMAS)

Composition: depleted-mantle Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_11_depleted-mantleFMAS")

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SLB_11_depleted-mantleFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for depleted-mantle (FMS)

Composition: depleted-mantle Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_11_depleted-mantleFMS")

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SLB_11_depleted-mantleMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for depleted-mantle (MS)

Composition: depleted-mantle Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_11_depleted-mantleMS")

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SLB_11_pyroliteCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for pyrolite (CFMAS)

Composition: pyrolite Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_11_pyroliteCFMAS")

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SLB_11_pyroliteCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for pyrolite (CFMS)

Composition: pyrolite Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_11_pyroliteCFMS")

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SLB_11_pyroliteFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for pyrolite (FMAS)

Composition: pyrolite Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_11_pyroliteFMAS")

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SLB_11_pyroliteFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for pyrolite (FMS)

Composition: pyrolite Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_11_pyroliteFMS")

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SLB_11_pyroliteMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2011). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- II. Phase equilibria", Geophysical Journal International, 2011, 184, 118.... DOI: 10.1111/j.1365-246X.2010.04890.x

Description: SLB 11 thermodynamic model for pyrolite (MS)

Composition: pyrolite Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_11_pyroliteMS")

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SLB_21_bulk-oceanic-crustCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for bulk-oceanic-crust (CFMAS)

Composition: bulk-oceanic-crust Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_21_bulk-oceanic-crustCFMAS")

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SLB_21_bulk-oceanic-crustCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for bulk-oceanic-crust (CFMS)

Composition: bulk-oceanic-crust Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_21_bulk-oceanic-crustCFMS")

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SLB_21_bulk-oceanic-crustFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for bulk-oceanic-crust (FMAS)

Composition: bulk-oceanic-crust Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_21_bulk-oceanic-crustFMAS")

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SLB_21_bulk-oceanic-crustFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for bulk-oceanic-crust (FMS)

Composition: bulk-oceanic-crust Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_21_bulk-oceanic-crustFMS")

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SLB_21_bulk-oceanic-crustMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for bulk-oceanic-crust (MS)

Composition: bulk-oceanic-crust Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_21_bulk-oceanic-crustMS")

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SLB_21_depleted-mantleCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for depleted-mantle (CFMAS)

Composition: depleted-mantle Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_21_depleted-mantleCFMAS")

---

SLB_21_depleted-mantleCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for depleted-mantle (CFMS)

Composition: depleted-mantle Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_21_depleted-mantleCFMS")

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SLB_21_depleted-mantleFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for depleted-mantle (FMAS)

Composition: depleted-mantle Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_21_depleted-mantleFMAS")

---

SLB_21_depleted-mantleFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for depleted-mantle (FMS)

Composition: depleted-mantle Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_21_depleted-mantleFMS")

---

SLB_21_depleted-mantleMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for depleted-mantle (MS)

Composition: depleted-mantle Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_21_depleted-mantleMS")

---

SLB_21_pyroliteCFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for pyrolite (CFMAS)

Composition: pyrolite Chemical System: CFMAS

Usage: gdrift.THERMODYNAMIC("SLB_21_pyroliteCFMAS")

---

SLB_21_pyroliteCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for pyrolite (CFMS)

Composition: pyrolite Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_21_pyroliteCFMS")

---

SLB_21_pyroliteFMAS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for pyrolite (FMAS)

Composition: pyrolite Chemical System: FMAS

Usage: gdrift.THERMODYNAMIC("SLB_21_pyroliteFMAS")

---

SLB_21_pyroliteFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for pyrolite (FMS)

Composition: pyrolite Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_21_pyroliteFMS")

---

SLB_21_pyroliteMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2021). Stixrude, L.; Lithgow-Bertelloni, C. "Thermal expansivity, heat capacity and bulk modulus of the mantle", Geophysical Journal International, 2021, .... DOI: 10.1093/gji/ggaa605

Description: SLB 21 thermodynamic model for pyrolite (MS)

Composition: pyrolite Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_21_pyroliteMS")

---

SLB_24_bulk-oceanic-crustCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for bulk-oceanic-crust (CFMS)

Composition: bulk-oceanic-crust Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_24_bulk-oceanic-crustCFMS")

---

SLB_24_bulk-oceanic-crustFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for bulk-oceanic-crust (FMS)

Composition: bulk-oceanic-crust Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_24_bulk-oceanic-crustFMS")

---

SLB_24_bulk-oceanic-crustMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for bulk-oceanic-crust (MS)

Composition: bulk-oceanic-crust Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_24_bulk-oceanic-crustMS")

---

SLB_24_depleted-mantleCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for depleted-mantle (CFMS)

Composition: depleted-mantle Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_24_depleted-mantleCFMS")

---

SLB_24_depleted-mantleFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for depleted-mantle (FMS)

Composition: depleted-mantle Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_24_depleted-mantleFMS")

---

SLB_24_depleted-mantleMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for depleted-mantle (MS)

Composition: depleted-mantle Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_24_depleted-mantleMS")

---

SLB_24_pyroliteCFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for pyrolite (CFMS)

Composition: pyrolite Chemical System: CFMS

Usage: gdrift.THERMODYNAMIC("SLB_24_pyroliteCFMS")

---

SLB_24_pyroliteFMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for pyrolite (FMS)

Composition: pyrolite Chemical System: FMS

Usage: gdrift.THERMODYNAMIC("SLB_24_pyroliteFMS")

---

SLB_24_pyroliteMS

Citation: Stixrude, L., & Lithgow-Bertelloni, C. (2024). Stixrude, L.; Lithgow-Bertelloni, C. "Thermodynamics of mantle minerals -- III. The role of iron", Geophysical Journal International, 2024 (in press).

Description: SLB 24 thermodynamic model for pyrolite (MS)

Composition: pyrolite Chemical System: MS

Usage: gdrift.THERMODYNAMIC("SLB_24_pyroliteMS")

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Seismic Tomography Models (47 datasets)

3d_seismic_GAP

Citation: Obayashi, M., Yoshimitsu, J., Nolet, G., Fukao, Y., Shiobara, H., Sugioka, H., Miyamachi, H., & Gao, Y. (2013). Obayashi, M., et al. 'Finite frequency whole mantle P wave tomography: Improvement of subducted slab images.' Geophysical Research Letters 40.21 (2.... DOI: 10.1002/2013GL057401

Description: GAP P-wave seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_GAP")

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3d_seismic_GyPSuM

Citation: Simmons, N. A., Forte, A. M., Boschi, L., & Grand, S. P. (2010). Simmons, N. A., et al. 'GyPSuM: A joint tomographic model of mantle density and seismic wave speeds.' Journal of Geophysical Research: Solid Earth .... DOI: 10.1029/2010JB007631

Description: GyPSuM joint tomographic model of mantle density and seismic wave speeds

Usage: gdrift.SEISMIC_MODEL("3d_seismic_GyPSuM")

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3d_seismic_HMSL-P06

Citation: Houser, C., Masters, G., Shearer, P., & Laske, G. (2008). Houser, C., et al. 'Shear and compressional velocity models of the mantle from cluster analysis of long-period waveforms.' Geophysical Journal Inte.... DOI: 10.1111/j.1365-246X.2008.03763.x

Description: HMSL-P06 P-wave seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_HMSL-P06")

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3d_seismic_HMSL-S06

Citation: Houser, C., Masters, G., Shearer, P., & Laske, G. (2008). Houser, C., et al. 'Shear and compressional velocity models of the mantle from cluster analysis of long-period waveforms.' Geophysical Journal Inte.... DOI: 10.1111/j.1365-246X.2008.03763.x

Description: HMSL-S06 S-wave seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_HMSL-S06")

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3d_seismic_LLNL-G3Dv3

Citation: Simmons, N. A., Myers, S. C., Johannesson, G., & Matzel, E. (2012). Simmons, N. A., et al. 'LLNL-G3Dv3: Global P wave tomography model for improved regional and teleseismic travel time prediction.' Journal of Geophy.... DOI: 10.1029/2012JB009525

Description: LLNL-G3Dv3 global P-wave tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_LLNL-G3Dv3")

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3d_seismic_MITP08

Citation: Li, C., van der Hilst, R. D., Engdahl, E. R., & Burdick, S. (2008). Li, C., et al. 'A new global model for P wave speed variations in Earth's mantle.' Geochemistry, Geophysics, Geosystems 9.5 (2008).. DOI: 10.1029/2007GC001806

Description: MITP08 P-wave seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_MITP08")

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3d_seismic_OJP

Citation: Tsekhmistrenko, M., Sigloch, K., Hosseini, K., & Barruol, G. (2021). Tsekhmistrenko, M., et al. 'A tree of Indo-African mantle plumes imaged with seismic tomography.' Nature Geoscience 14 (2021): 612-619.. DOI: 10.1038/s41561-021-00762-9

Description: OJP seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_OJP")

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3d_seismic_REVEAL

Citation: Thrastarson, S., van Herwaarden, D.-P., Noe, S., Schiller, C. J., & Fichtner, A. (2024). Thrastarson, Solvi, et al. 'REVEAL: A global full-waveform inversion model.' Bulletin of the Seismological Society of America 114.3 (2024): 1392-1406.. DOI: 10.1785/0120230273

Description: REVEAL global full-waveform inversion seismic model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_REVEAL")

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3d_seismic_S20RTS

Citation: Ritsema, J., van Heijst, H. J., & Woodhouse, J. H. (1999). Ritsema, J., et al. 'Complex shear wave velocity structure imaged beneath Africa and Iceland.' Science 286.5446 (1999): 1925-1928.. DOI: 10.1126/science.286.5446.1925

Description: S20RTS degree-20 shear-velocity model for the mantle

Usage: gdrift.SEISMIC_MODEL("3d_seismic_S20RTS")

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3d_seismic_S362ANI

Citation: Kustowski, B., Ekström, G., & Dziewonski, A. M. (2008). Kustowski, B., et al. 'Anisotropic shear-wave velocity structure of the Earth's mantle: A global model.' Journal of Geophysical Research: Solid Ear.... DOI: 10.1029/2007JB005169

Description: S362ANI anisotropic seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_S362ANI")

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3d_seismic_S362ANI+M

Citation: Moulik, P., & Ekström, G. (2014). Moulik, P., and G. Ekstrom. 'An anisotropic shear velocity model of the Earth's mantle using normal modes, body waves, surface waves and long-perio.... DOI: 10.1093/gji/ggu356

Description: S362ANI+M anisotropic seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_S362ANI+M")

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3d_seismic_S362WMANI

Citation: Kustowski, B., Ekström, G., & Dziewonski, A. M. (2008). Kustowski, B., et al. 'Anisotropic shear-wave velocity structure of the Earth's mantle: A global model.' Journal of Geophysical Research: Solid Ear.... DOI: 10.1029/2007JB005169

Description: S362WMANI anisotropic seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_S362WMANI")

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3d_seismic_S40RTS

Citation: Ritsema, J., Deuss, A., van Heijst, H. J., & Woodhouse, J. H. (2011). Ritsema, J., et al. 'S40RTS: a degree-40 shear-velocity model for the mantle from new Rayleigh wave dispersion, teleseismic traveltime and normal-m.... DOI: 10.1111/j.1365-246X.2010.04884.x

Description: S40RTS degree-40 shear-velocity model for the mantle

Usage: gdrift.SEISMIC_MODEL("3d_seismic_S40RTS")

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3d_seismic_SAW24B16

Citation: Mégnin, C., & Romanowicz, B. (2000). Megnin, C., and B. Romanowicz. 'The three-dimensional shear velocity structure of the mantle from the inversion of body, surface and higher-mode wa.... DOI: 10.1046/j.1365-246X.2000.00298.x

Description: SAW24B16 seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SAW24B16")

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3d_seismic_SAW642AN

Citation: Panning, M., & Romanowicz, B. (2006). Panning, M. P., and B. Romanowicz. 'A three-dimensional radially anisotropic model of shear velocity in the whole mantle.' Geophysical Journal Inte.... DOI: 10.1111/j.1365-246X.2006.03100.x

Description: SAW642AN seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SAW642AN")

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3d_seismic_SAW642ANb

Citation: Panning, M., Lekić, V., & Romanowicz, B. A. (2010). Panning, M. P., et al. 'Importance of reference models in interpreting tomographic images of the mantle.' Geophysical Research Letters 37.L02303 (2.... DOI: 10.1029/2010JB007520

Description: SAW642ANb seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SAW642ANb")

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3d_seismic_SEISGLOB2

Citation: Durand, S., Debayle, E., Ricard, Y., Zaroli, C., & Lambotte, S. (2017). Durand, S., et al. 'Confirmation of a change in the global shear velocity pattern at around 1000 km depth.' Geophysical Journal International 211.3.... DOI: 10.1093/gji/ggx405

Description: SEISGLOB2 seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SEISGLOB2")

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3d_seismic_SEMUCB-WM1

Citation: French, S. W., & Romanowicz, B. (2015). French, S. W., and B. Romanowicz. 'Broad plumes rooted at the base of the Earth's mantle beneath major hotspots.' Nature 525.7567 (2015): 95-99.. DOI: 10.1038/nature14876

Description: SEMUCB-WM1 seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SEMUCB-WM1")

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3d_seismic_SEMum

Citation: Lekić, V., & Romanowicz, B. (2011). Lekic, V., and B. Romanowicz. 'Inferring upper-mantle structure by full waveform tomography with the spectral element method.' Geophysical Journal .... DOI: 10.1111/j.1365-246X.2011.04969.x

Description: SEMum seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SEMum")

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3d_seismic_SGLOBE-rani

Citation: Chang, S.-J., Ferreira, A. M. G., Ritsema, J., van Heijst, H. J., & Woodhouse, J. H. (2014). Chang, S. J., et al. 'Global radially anisotropic mantle structure from multiple datasets: A review, current challenges, and outlook.' Tectonophysi.... DOI: 10.1002/2014JB011824

Description: SGLOBE-rani radially anisotropic seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SGLOBE-rani")

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3d_seismic_SP12RTS

Citation: Koelemeijer, P., Ritsema, J., Deuss, A., & van Heijst, H.-J. (2016). Koelemeijer, P., et al. 'SP12RTS: a degree-12 model of shear- and compressional-wave velocity for Earth's mantle.' Geophysical Journal Internationa.... DOI: 10.1093/gji/ggv481

Description: SP12RTS degree-12 shear and compressional wave velocity model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SP12RTS")

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3d_seismic_SPani

Citation: Tesoniero, A., Auer, L., Boschi, L., & Cammarano, F. (2015). Tesoniero, A., et al. 'Full wave sensitivity of S and P waves to deep mantle structures.' Geophysical Journal International 200.2 (2015): 1412-1426.. DOI: 10.1002/2015JB012026

Description: SPani seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_SPani")

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3d_seismic_TX2000

Citation: Grand, S. P. (2002). Grand, S. P. 'Mantle shear-wave tomography and the fate of subducted slabs.' Philosophical Transactions of the Royal Society of London A 360.1800 (.... DOI: 10.1098/rsta.2002.1077

Description: TX2000 seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_TX2000")

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3d_seismic_TX2011

Citation: Grand, S. P. (2011). Grand, S. P. 'Mantle shear-wave tomography and the fate of subducted slabs.' Philosophical Transactions of the Royal Society of London A 360.1800 (.... DOI: 10.1098/rsta.2002.1077

Description: TX2011 seismic tomography model

Usage: gdrift.SEISMIC_MODEL("3d_seismic_TX2011")

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3d_seismic_TX2019slab

Citation: Lu, C., Grand, S. P., Lai, H., & Garnero, E. J. (2019). Lu, C., et al. 'TX2019slab: A new P and S tomography model incorporating subducting slabs.' Journal of Geophysical Research: Solid Earth 124.11 (20.... DOI: 10.1029/2019JB017448

Description: TX2019slab P and S tomography model incorporating subducting slabs

Usage: gdrift.SEISMIC_MODEL("3d_seismic_TX2019slab")

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Notes

• This catalog is auto-generated from gdrift/datasets.json
• Citation information is extracted from HDF5 files and web sources
• All datasets listed have complete metadata with proper citations