Author Correction: The many surface expressions of mantle dynamics (Nature Geoscience, (2010), 3, 12, (825-833), 10.1038/ngeo1020);The many surface expressions of mantle dynamics

Nature Geoscience

Volumn 3, Issue 12, 2010, Pages 825-833

  Braun, Jean ^a  

^a UNIV GRENOBLE ALPES   (France)

Author keywords

[No Author keywords available]

Indexed keywords

EARTH STRUCTURE; GEOLOGICAL RECORD; MANTLE CONVECTION; PLATE TECTONICS; TOPOGRAPHY; WAVELENGTH;

EID: 78649808767     PISSN: 17520894     EISSN: 17520908     Source Type: Journal    
DOI: 10.1038/s41561-022-00948-9     Document Type: Erratum

References (72)

1. Hager, B., Clayton, C., Richards, M., Comer, R. & Dziewonski, A. Lower mantle heterogeneity, dynamic topography and the geoid. Nature 313, 541-545 (1985).
2. Gurnis, M., Mitrovica, J., Ritsema, J. & van Heijst, H-J. Constraining mantle density structure using geological evidence of surface uplift rates: The case of the African superplume. Geochem. Geophys. Geosyst. 1, 1020 (2000).
3. Lowry, A., Ribe, N. & Smith, R. Dynamic elevation of the Cordillera, western United States. J. Geophys. Res. 105, 23371-23390 (2000).
4. Conrad, C., Lithgow-Bertelloni, C. & Louden, K. Iceland, the Farallon slab, and dynamic topography of the North Atlantic. Geology 32, 177-180 (2004).
5. Guillou-Frotier, L., Burov, E., Nehlig, P. & Wyns, R. Deciphering plume- lithosphere interactions beneath Europe from topographic signatures. Glob. Planet. Change 58, 119-140 (2007).
6. Steinberger, B. Effects of latent heat release at phase boundaries on flow in the Earth's mantle, phase boundary topography and dynamic topography at the Earth's surface. Phys. Earth Planet. Inter. 164, 2-20 (2007).
7. Adam, C. & Vidal, V. Mantle flow drives the subsidence of oceanic plates. Science 328, 83-85 (2010).
8. Hillier, J. Subsidence of normal seafloor: observations do indicate flattening. J. Geophys. Res. 115, B03102 (2010).
9. Winterbourne, J., Crossby, A. & White, N. Depth, age and dynamic topography of oceanic lithosphere beneath heavily sedimented Atlantic margins. Earth Planet. Sci. Lett. 287, 137-151 (2009).
10. Moucha, R. et al. Dynamic topography and long-term sea-level variations: there is no such thing as a stable continental platform. Earth Planet. Sci. Lett. 271, 101-108 (2008).
11. Mitrovica, J., Beaumont, C. & Jarvis, G. Tilting of continental interiors by the dynamical effects of subduction. Tectonics 8, 1079-1094 (1989).
12. Gurnis, M. Phanerozoic marine inundation of continents driven by dynamic topography above subducting slabs. Nature 364, 589-593 (1993).
13. Spasojevic, S., Liu, L., Gurnis, M. & Muller, R. The case for dynamic subsidence of the US east coast since the Eocene. Geophys. Res. Lett. 35, L08305 (2008).
14. DiCaprio, L., Gurnis, M. & Muller, R. Long-wavelength tilting of the Australian continent since the Late Cretaceous. Earth Planet. Sci. Lett. 278, 175-185 (2009).
15. Husson, L. Dynamic topography above retreating subduction zones. Geology 34, 741-744 (2006).
16. Artyushkov, E. & Hofmann, A. Neotectonic crustal uplift on the continents and its possible mechanisms: the case of southern Africa. Surv. Geophys. 18, 369-415 (1998).
17. Burov, E. & Guillou-Frottier, L. The plume head-continental lithosphere interaction using a tectonically realistic formulation for the lithosphere. Geophys. J. Int. 161, 469-490 (2005).
18. Lithgow-Bertelloni, C. & Silver, P. Dynamic topography, plate driving forces and the African superswell. Nature 395, 269-272 (1998).
19. Guillaume, B., Martinod, J., Husson, L., Roddaz, M. & Riquelme, R. Neogene uplift of central eastern Patagonia: dynamic response to active spreading ridge subduction? Tectonics 28, TC2009 (2009).
20. Sutherland, R., Spasojevic, S. & Gurnis, M. Mantle upwelling after Gondwana subduction death explains anomalous topography and subsidence histories of eastern New Zealand and West Antarctica. Geology 38, 155-158 (2010).
21. Muller, R., Sdrolias, M., Gaina, C., Steinberger, B. & Heine, C. Long-term sea-level fluctuations driven by ocean basin dynamics. Science 319, 1357-1362 (2008).
22. Conrad, C. & Husson, L. Influence of dynamic topography on sea level and its rate of change. Lithosphere 1, 110-120 (2009).
23. Lovell, B. A pulse in the planet: regional control of high-frequency changes in relative sea level by mantle convection. J. Geol. Soc. Lond. 167, 637-648 (2010).
24. Petersen, K., Nielsen, S., Clausen, O., Stephenson, R. & Gerya, T. Small-scale mantle convection produces stratigraphic sequences in sedimentary basins. Science 329, 827-830 (2010).
25. Gallagher, K. & Lambeck, K. Subsidence, sedimentation and sea-level changes in the Eromanga Basin, Australia. Basin Res. 2, 115-131 (1989).
26. Gurnis, M., Muller, R. & Moresi, L. Cretaceous vertical motion of Australia and the Australian Antarctic discordance. Science 279, 1499-1504 (1998).
27. Mitrovica, J., Pysklywec, R. & Beaumont, C. The Devonian to Permian tilting of the Russion platform: an example of subduction controlled long-wavelength tilting of continents. J. Geodyn. 22, 79-96 (1996).
28. Pysklywec, R. & Mitrovica, J. The role of subduction-induced subsidence in the evolution of the Karoo Basin. J. Geol. 107, 155-164 (1999).
29. Spasojevic, S., Liu, L. & Gurnis, M. Adjoint models of mantle convection with seismic, plate motion, and stratigraphic constraints: North America since the Late Cretaceous. Geochem. Geophys. Geosyst. 10, Q05W02 (2009).
30. Heine, C., Muller, R., Steinberger, B. & DiCaprio, L. Integrating deep Earth dynamics in paleogeographic reconstructions of Australia. Tectonophysics 483, 135-150 (2010).
31. Gallagher, K. & Brown, R. The onshore record of passive margin evolution. J. Geol. Soc. Lond. 154, 451-457 (1997).
32. Gallagher, K. & Brown, R. in Te Oil and Gas Habitats of the South Atlantic (eds Cameron, N., Bate, R. & Clure, V.) 41-53 (Geological Society of London Special Publication Vol. 153, 1999).
33. Walford, H. & White, N. Constraining uplift and denudation of west African continental margin by inversion of stacking velocity data. J. Geophys. Res. 110, B04403 (2005).
34. Al-Hajri, Y., White, N. & Fishwick, S. Scales of transient convective support beneath Africa. Geology 37, 883-886 (2009).
35. Rudge, J., Shaw Champion, M., White, N., McKenzie, D. & Lovell, J. A plume model of transient diachronous uplift at the Earth's surface. Earth Planet. Sci. Lett. 267, 146-160 (2008).
36. Shaw Champion, M., White, N., Jones, S. & Lovell, J. Quantifying transient mantle convective uplift: an example from the Faroe-Shetland basin. Tectonics 27, TC1002 (2008).
37. Heine, C., Muller, R., Steinberger, B. & Torsvik, T. Subsidence in intracontinental basins due to dynamic topography. Phys. Earth Planet. Inter. 171, 252-264 (2008).
38. Downey, N. & Gurnis, M. Instantaneous dynamics of the cratonic Congo basin. J. Geophys. Res. 114, B06401 (2009).
39. DiCaprio, L., Muller, R. & Gurnis, M. A dynamic process for drowning carbonate reefs on the northeastern Australian margin. Geology 38, 11-14 (2010).
40. Moucha, R. et al. Deep mantle forces and the uplift of the Colorado Plateau. Geophys. Res. Lett. 36, L19310 (2009).
41. Forte, A., Moucha, R., Simmons, N., Grand, S. & Mitrovica, J. Deep-mantle contributions to the surface dynamics of the North American continent. Tectonophysics 481, 3-15 (2010).
42. Leng, W. & Zhong, S. Surface subsidence caused by mantle plumes and volcanic loading in large igneous provinces. Earth Planet. Sci. Lett. 291, 207-214 (2010).
43. Le Pourhiet, L., Gurnis, M. & Saleeby, J. Mantle instability beneath the Sierra Nevada Mountains in California and Death Valley extension. Earth Planet. Sci. Lett. 251, 104-119 (2006).
44. Conrad, C. & Gurnis, M. Seismic tomography, surface uplift, and the breakup of Gondwanaland: Integrating mantle convection backwards in time. Geochem. Geophys. Geosyst. 4, 1031 (2003).
45. Liu, L., Spasojevic, S. & Gurnis, M. Reconstructing Farallon plate subduction beneath North America back to the Late Cretaceous. Science 322, 934-938 (2008).
46. Grand, S. Mantle shear-wave tomography and the fate of subducted slabs. Phil. Trans. R. Soc. Lond. A 360, 2475-2491 (2002).
47. Li, C., van der Hilst, R., Engdahl, E. & Burdick, S. A new global model for P wave speed variations in Earth's mantle. Geochem. Geophys. Geosyst. 9, Q05018 (2008).
48. Burdick, S. et al. Model update December 2008: upper mantle heterogeneity beneath North America from P-wave travel time tomography with global and USArray transportable array data. Seismol. Res. Lett. 80, 638-645 (2008).
49. Rawlinson, N., Pozgay, S. & Fishwick, S. Seismic tomography: a window into deep Earth. Phys. Earth Planet. Inter. 178, 101-135 (2009).
50. Karato, S.-I. & Karki, B. Origin of lateral variation of seismic wave velocities and density in the deep mantle. J. Geophys. Res. 106, 21771-21784 (2001).
51. Stixrude, L. & Lithgow-Bertelloni, C. Thermodynamics of mantle minerals. Part 1: Physical properties. Geophys. J. Int. 162, 610-632 (2005).
52. Simmons, N., Forte, A. & Grand, S. Joint seismic, geodynamic and mineral physical constraints on three-dimensional mantle heterogeneity: implications for the relative importance of thermal versus compositional heterogeneity. Geophys. J. Int. 177, 1284-1304 (2009).
53. Ni, S., Tan, E., Gurnis, M. & Helmberger, D. Sharp sides to the African superplume. Science 296, 1850-1852 (2002).
54. Behn, M., Conrad, C. & Silver, P. Detection of upper mantle flow associated with the African superplume. Earth Planet. Sci. Lett. 224, 259-274 (2004).
55. Simmons, N., Forte, A. & Grand, S. Termomechanical structure and dynamics of the African super-plume. Geophys. Res. Lett. 34, L02301 (2007).
56. Forte, A. in Treatise of Geophysics (eds Romanovicz, B. & Dziewonski, A.) 805-854 (GEOTOP Publication Vol. 1, 2007).
57. Tan, E., Choi, E., Thoutireddy, P., Gurnis, M. & Aivazis, M. Geoframework: coupling multiple models of mantle convection within a computational framework. Geochem, Geophys. Geosyst. 7, Q06001 (2006).
58. Moucha, R., Forte, A., Mitrovica, J. & Daradich, A. Lateral variations in mantle rheology: implications for convection related surface observables and inferred viscosity models. Geophys. J. Int. 169, 113-135 (2007).
59. Bunge, H.-P., Hagelberg, C. & Travis, B. Mantle circulation models with variational data assimilation: Inferring past mantle flow and structure from plate motion histories and seismic tomography. Geophys. J. Int. 152, 280-301 (2003).
60. Liu, L. & Gurnis, M. Dynamic subsidence and uplift of the Colorado Plateau. Geology 38, 663-666 (2010).
61. Shephard, G. E., Muller, R. D., Liu, L. & Gurnis, M. Miocene drainage reversal of the Amazon River driven by plate-mantle interaction. Nature Geosci. 3, 870-875 (2010).
62. Shephard, G. et al. Contribution of mantle convection to shifting South American coastlines during the Tertiary. Eos 90, 52 (2009).
63. Wegmann, K. et al. Position of the Snake River watershed divide as an indicator of geodynamic processes in the greater Yellowstone region, western North America. Geosphere 3, 272-281 (2007).
64. Beranek, L., Link, P. & Fanning, C. Miocene to Holocene landscape evolution of the western Snake River plain region, Idaho: using the SHRIMP detrital zircon provenance record to track eastward migration of the Yellowstone hotspot. Geol. Soc. Am. Bull. 118, 1027-1050 (2006).
65. Karlstrom, K., Crow, R., Crossey, L., Coblentz, D. & van Wijk, J. Model for tectonically driven incision of the younger than 6 Ma Grand Canyon. Geology 36, 835-838 (2008).
66. Sandiford, M. The tilting continent: a new constraint on the dynamic topographic field from Australia. Earth Planet. Sci. Lett. 261, 152-163 (2007).
67. Finnegan, N. et al. Coupling of rock uplift and river incision in the Namche Barwa-Gyala Peri Massif, Tibet. Geol. Soc. Am. Bull. 120, 142-155 (2008).
68. Iaffaldano, G. & Bunge, H.-P. Strong plate coupling along the Nazca-South America convergent margin. Geology 36, 443-446 (2008).
69. Stadler, G. et al. The dynamics of plate tectonics and mantle flow: from local to global scales. Science 329, 1033-1038 (2010).
70. Jault, D. & Le Moul, J.-L. Core-mantle boundary shape: constraints inferred from the pressure torque acting between the core and the mantle. Geophys. J. Int. 101, 233-241 (2007).
71. Simoes, M., Braun, J. & Bonnet, S. Continental-scale erosion and transport laws: A new approach to quantitatively investigate macroscale landscapes and associated sediment fluxes over the geological past. Geochem. Geophys. Geosyst. 11, Q09001 (2010).
72. Langford, R., Wilford, G., Truswell, E. & Isern, A. Paleogeographic Atlas of Australia: Cainozoic (Australian Geological Survey Organization, 1995).