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Becker, T. W., Faccenna, C., Lallemand, S.and Funiciello, F. (2009), "Subduction Zone Geodynamics", A Review of the Role of Subduction Dynamics for Regional and Global Plate Motions, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 3--34, 978-3-540-87974-9, (DOI: 10.1007/978-3-540-87974-9_1). Cited by:
BibTex | EndNote|Resources cited:[1][2]
Becker, T. W., Kustowski, B., Ekstrom, G., (2008), "Radial seismic anisotropy as a constraint for upper mantle rheology", Earth and Planetary Science Letters, 267, 1-2: pg: 213--227, (DOI: 10.1016/j.epsl.2007.11.038). Cited by:
Billen, M. I., Jadamec, M., (2012), "Origin of localized fast mantle flow velocity in numerical models of subduction", Geochemistry, Geophysics, Geosystems, 13, 1: pg: Q01016, (DOI: 10.1029/2011GC003856). Cited by:
Bobrov, A. M., Baranov, A. A., (2019), "Thermochemical Mantle Convection with Drifting Deformable Continents: Main Features of Supercontinent Cycle", Pure and Applied Geophysics, 176: pg: 3545--3565, (DOI: 10.1007/s00024-019-02164-w). Cited by:
Bobrova, A. M., Baranov, A. A., (2016), "The mantle convection model with non-Newtonian rheology and phase transitions: The flow structure and stress fields", Izvestiya, Physics of the Solid Earth, 52, 1: pg: 129--143, (DOI: 10.1134/S1069351316010031). Cited by:
Boschi, L., Faccenna, C., Becker, T. W., (2010), "Mantle structure and dynamic topography in the Mediterranean Basin", Geophysical Research Letters, 37, 20: pg: L20303, (DOI: 10.1029/2010GL045001). Cited by:
Bower, D. J., Gurnis, M., Jackson, J. M., Sturhahn, W., (2009), "Enhanced convection and fast plumes in the lower mantle induced by the spin transition in ferropericlase", Geophysical Research Letters, 36, 10: pg: L10306, (DOI: 10.1029/2009GL037706). Cited by:
Bower, D. J., Gurnis, M., Seton, M., (2013), "Lower mantle structure from paleogeographically constrained dynamic Earth models", Geochemistry, Geophysics, Geosystems, 14, 1: pg: 44--63, (DOI: 10.1029/2012GC004267). Cited by:
Bower, D. J., Gurnis, M., Sun, D., (2013), "Dynamic origins of seismic wavespeed variation in", Physics of the Earth and Planetary Interiors, 214: pg: 74--86, (DOI: 10.1016/j.pepi.2012.10.004). Cited by:
Bower, D. J., Wicks, J. K., Gurnis, M., Jackson, J. M., (2011), "A geodynamic and mineral physics model of a solid-state ultralow-velocity zone", Earth and Planetary Science Letters, 303, 3-4: pg: 193--202, (DOI: 10.1016/j.epsl.2010.12.035). Cited by:
Bull, A. L., McNamara, A. K., Becker, T. W., Ritsema, J., (2010), "Global scale models of the mantle flow field predicted by synthetic tomography models", Physics of the Earth and Planetary Interiors, 182, 3-4: pg: 129--138, (DOI: 10.1016/j.pepi.2010.03.004). Cited by:
Burkett, E., Gurnis, M., (2013), "Stalled slab dynamics", Lithosphere, 5, 1: pg: 92--97, (DOI: 10.1130/L249.1). Cited by:
Chen, S., Zhang, H., Yuen, D. A., Zhang, S., Zhang, J., Shi, Y., (2008), "Volume rendering visualization of 3D spherical mantle convection with an unstructured mesh", Visual Geosciences, 13, 1: pg: 97--104, (DOI: 10.1007/s10069-008-0012-0). Cited by:
Citron, R. I., Manga, M., Tan, E., (2018), "A hybrid origin of the Martian crustal dichotomy: Degree-1 convection antipodal to a giant impact", Earth and Planetary Science Letters, 491: pg: 58--66, (DOI: 10.1016/j.epsl.2018.03.031). Cited by:
Conrad, C. P., (2013), "The solid Earth's influence on sea level", Geological Society of America Bulletin, 125, 7-8: pg: 1027--1052, (DOI: 10.1130/B30764.1). Cited by:
Conrad, C. P., Behn, M. D., (2010), "Constraints on lithosphere net rotation and asthenospheric viscosity from global mantle flow models and seismic anisotropy", Geochemistry, Geophysics, Geosystems, 11, 5: pg: Q05W05, (DOI: 10.1029/2009GC002970). Cited by:
Conrad, C. P., Behn, M. D., Silver, P. G., (2007), "Global mantle flow and the development of seismic anisotropy: Differences between the oceanic and continental upper mantle", Journal of Geophysical Research, 112, B7: pg: B07317, (DOI: 10.1029/2006JB004608). Cited by:
Conrad, C. P., Gurnis, M., (2003), "Seismic tomography, surface uplift, and the breakup of Gondwanaland: Integrating mantle convection backwards in time", Geochemistry, Geophysics, Geosystems, 4, 3: pg: 1031, (DOI: 10.1029/2001GC000299). Cited by:
Conrad, C. P., Husson, L., (2009), "Influence of dynamic topography on sea level and its rate of change", Lithosphere, 1, 2: pg: 110--120, (DOI: 10.1130/L32.1). Cited by:
Conrad, C. P., Lithgow-Bertelloni, C., (2006), "Influence of continental roots and asthenosphere on plate-mantle coupling", Geophysical Research Letters, 33, 5: pg: L05312, (DOI: 10.1029/2005GL025621). Cited by:
Conrad, C. P., Steinberger, B., Torsvik, T. H., (2013), "Stability of active mantle upwelling revealed by net characteristics of plate tectonics", Nature, 498, 7455: pg: 479--482, (DOI: 10.1038/nature12203). Cited by:
Cooper, C. M., Conrad, C. P., (2009), "Does the mantle control the maximum thickness of cratons?", Lithosphere, 1, 2: pg: 67--72, (DOI: 10.1130/L40.1). Cited by:
Cottaar, S., Buffett, B., (2012), "Convection in the Earth's inner core", Physics of the Earth and Planetary Interiors, 198-199: pg: 67--78, (DOI: 10.1016/j.pepi.2012.03.008). Cited by:
Cui, R., Fang, J., Yoshida, M., Chen, M., (2019), "Modeling Long-Wavelength Geoid Anomalies from Instantaneous Mantle Flow: Results from Two Recent Tomography Models", Pure and Applied Geophysics, 176, 10: pg: 4335--4348, (DOI: 10.1007/s00024-019-02215-2). Cited by:
D. L., Lourencco, M. L., R., (2020), "Shallow Lower Mantle Viscosity Modulates the Pattern of Mantle Structure", Geochemistry, Geophysics, Geosystems, 21, 8: pg: 2020, . Cited by:
DiCaprio, L., Gurnis, M., Muller, R. D., Tan, E., (2011), "Mantle dynamics of continentwide Cenozoic subsidence and tilting of Australia", Lithosphere, 3, 5: pg: 311--316, (DOI: 10.1130/L140.1). Cited by:
DiCaprio, L., Muller, R. D., Gurnis, M., (2010), "A dynamic process for drowning carbonate reefs on the northeastern Australian margin", Geology, 38, 1: pg: 11--14, (DOI: 10.1130/G30217.1). Cited by:
Faccenna, C., Becker, T. W., (2010), "Shaping mobile belts by small-scale convection", Nature, 465, 7298: pg: 602--605, (DOI: 10.1038/nature09064). Cited by:
Faccenna, C., Becker, T. W., Conrad, C. P., Husson, L., (2013), "Mountain building and mantle dynamics", Tectonics, 32, 1: pg: 80--93, (DOI: 10.1029/2012TC003176). Cited by:
Flament, N., Gurnis, M., Muller, R. D., (2013), "A review of observations and models of dynamic topography", Lithosphere, 5, 2: pg: 189--210, (DOI: 10.1130/L245.1). Cited by:
Foley, B. J., Becker, T. W., (2009), "Generation of plate-like behavior and mantle heterogeneity from a spherical, viscoplastic convection model", Geochemistry, Geophysics, Geosystems, 10, 8: pg: Q08001, (DOI: 10.1029/2009GC002378). Cited by:
BibTex | EndNote|Resources cited:[1][2]
Ghosh, A., Becker, T. W., Humphreys, E. D., (2013), "Dynamics of the North American continent", Geophysical Journal International, 194, 2: pg: 651--669, (DOI: 10.1093/gji/ggt151). Cited by:
Ghosh, A., Becker, T. W., Zhong, S. J., (2010), "Effects of lateral viscosity variations on the geoid", Geophysical Research Letters, 37, 1: pg: L01301, (DOI: 10.1029/2009GL040426). Cited by:
Han, L., Tobie, G., Showman, A. P., (2012), "The impact of a weak south pole on thermal convection in Enceladus' ice shell", Icarus, 218, 1: pg: 320--330, (DOI: 10.1016/j.icarus.2011.12.006). Cited by:
Heyn, B. H., Conrad, C. P., Tronnes, R. G., (2018), "Stabilizing Effect of Compositional Viscosity Contrasts on Thermochemical Piles", Geophysical Research Letters, 45, 15: pg: 7523--7532, (DOI: 10.1029/2018GL078799). Cited by:
Hines, J. M., Billen, M. I., (2012), "Sensitivity of the short- to intermediate-wavelength geoid to rheologic structure in subduction zones", Journal of Geophysical Research: Solid Earth, 117, B5: pg: B05410, (DOI: 10.1029/2011JB008978). Cited by:
Hoink, T., Lenardic, A., Richards, M., (2012), "Depth-dependent viscosity and mantle stress amplification: implications for the role of the asthenosphere in maintaining plate tectonics: Asthenosphere and mantle stress amplification", Geophysical Journal International, 191, 1: pg: 30--41, (DOI: 10.1111/j.1365-246X.2012.05621.x). Cited by:
Huang, J., Yang, A., Zhong, S., (2013), "Constraints of the topography, gravity and volcanism on Venusian mantle dynamics and generation of plate tectonics", Earth and Planetary Science Letters, 362: pg: 207--214, (DOI: 10.1016/j.epsl.2012.11.051). Cited by:
Husson, L., Conrad, C. P., (2012), "On the location of hotspots in the framework of mantle convection", Geophysical Research Letters, 39, 17: pg: L17304, (DOI: 10.1029/2012GL052866). Cited by:
Husson, L., Conrad, C. P., Faccenna, C., (2012), "Plate motions, Andean orogeny, and volcanism above the South Atlantic convection cell", Earth and Planetary Science Letters, 317-318: pg: 126--135, (DOI: 10.1016/j.epsl.2011.11.040). Cited by:
Ke, Y., Solomatov, V. S., (2009), "Coupled core-mantle thermal evolution of early Mars", Journal of Geophysical Research, 114, E7: pg: E07004, (DOI: 10.1029/2008JE003291). Cited by:
Ke, Y., Solomatov, V. S., (2006), "Early transient superplumes and the origin of the Martian crustal dichotomy", Journal of Geophysical Research, 111, E10: pg: E10001, (DOI: 10.1029/2005JE002631). Cited by:
Key, K., Constable, S., Liu, L., Pommier, A., (2013), "Electrical image of passive mantle upwelling beneath the northern East Pacific Rise", Nature, 495, 7442: pg: 499--502, (DOI: 10.1038/nature11932). Cited by:
Kiefer, W. S., Li, Q., (2016), "Water undersaturated mantle plume volcanism on present-day Mars", Meteoritics & Planetary Science, 51, 11: pg: 1993--2010, (DOI: 10.1111/maps.12720). Cited by:
King, S. D., (2018), "Venus Resurfacing Constrained by Geoid and Topography", Journal of Geophysical Research: Planets, 123: pg: 1041--1060, (DOI: 10.1002/2017JE005475). Cited by:
King, S. D., (2008), "Pattern of lobate scarps on Mercury's surface reproduced by a model of mantle~convection", Nature Geoscience, 1, 4: pg: 229--232, (DOI: 10.1038/ngeo152). Cited by:
Lassak, T. M., McNamara, A. K., Garnero, E. J., Zhong, S., (2010), "Core-mantle boundary topography as a possible constraint on lower mantle chemistry and dynamics", Earth and Planetary Science Letters, 289, 1-2: pg: 232--241, (DOI: 10.1016/j.epsl.2009.11.012). Cited by:
Leng, W., Zhong, S., (2008), "Viscous heating, adiabatic heating and energetic consistency in compressible mantle convection", Geophysical Journal International, 173, 2: pg: 693--702, (DOI: 10.1111/j.1365-246X.2008.03745.x). Cited by:
Liu, L., Gurnis, M., (2008), "Simultaneous inversion of mantle properties and initial conditions using an adjoint of mantle convection", Journal of Geophysical Research, 113, B8: pg: B08405, (DOI: 10.1029/2008JB005594). Cited by:
Liu, L., Spasojevic, S., Gurnis, M., (2008), "Reconstructing Farallon Plate Subduction Beneath North America Back to the Late Cretaceous", Science, 322, 5903: pg: 934--938, (DOI: 10.1126/science.1162921). Cited by:
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