Geology Reference
In-Depth Information
86. Kerr, R.C. and C. Meriaux, Structure and dynamics of sheared mantle plumes.
Geochem. Geophys. Geosyst ., 2004. 5 : Q12009, doi:10.1029/2004GC000749.
87. Richards, M.A. and D.C. Engebretson, Large-scale mantle convection and the
history of subduction. Nature , 1992. 355 : p. 437-440.
88. Stacey, F.D. and D.E. Loper, Thermal histories of the core and mantle. Phys. Earth
Planet. Inter. , 1984. 36 : p. 99-115.
89. Von Herzen, R.P., et al. , Heat flow and thermal origin of hotspot swells: the
Hawaiian swell revisited. J. Geophys. Res ., 1989. 94 : p. 13783-13799.
90. Grand, S., R.D. Van Der Hilst, and S. Widiyantoro, Global seismic tomography:
a snapshot of convection in the earth. Geol. Soc. Am. Today , 1997. 7 (4): p. 1-7.
91. Davies, G.F. and F. Pribac, Mesozoic seafloor subsidence and the Darwin Rise, past
and present, in The Mesozoic Pacific , M. Pringle, et al. , Editors. 1993, Washington,
DC: American Geophysical Union. p. 39-52.
92. Hill, R.I., Starting plumes and continental breakup. Earth Planet. Sci. Lett ., 1991.
104 : p. 398-416.
93. Griffiths, R.W. and I.H. Campbell, Interaction of mantle plume heads with the
earth's surface and onset of small-scale convection. J. Geophys. Res ., 1991. 96 :
p. 18295-18310.
94. Jackson, I., et al. , Grain-size-sensitive seismic wave attenuation in polycrystalline
olivine. J. Geophys. Res ., 2002. 107 : 2360.
95. Forsyth, D. and S. Uyeda, On the relative importance of the driving forces of plate
motion. Geophys. J. R. Astron. Soc ., 1975. 43 : p. 163-200.
96. Stein, C.A. and S. Stein, A model for the global variation in oceanic depth and heat
flow with lithospheric age. Nature , 1992. 359 : p. 123-129.
97. Hillier, J.K., Subsidence of 'normal' seafloor: observations do indicate 'flattening'.
J. Geophys. Res ., 2010. 115 : B03102, doi:10.1029/2008JB005994.
98. Korenaga, T. and J. Korenaga, Subsidence of normal oceanic lithosphere, apparent
thermal expansivity, and seafloor flattening. Earth Planet. Sci. Lett ., 2008. 268 :
p. 41-51.
99. Parsons, B. and J.G. Sclater, An analysis of the variation of ocean floor bathymetry
and heat flow with age. J. Geophys. Res ., 1977. 82 : p. 803-827.
100. Mooney, W.D., G. Laske, and T.G. Masters, CRUST 5.1: a global crustal model at
5 ×
5 . J. Geophys. Res ., 1998. 103 : p. 727-747.
101. Panasyuk, S.V., Residual topography of the earth. 1998: unpublished.
102. Ishii, M. and J. Tromp, Constraining large-scale mantle heterogeneity using mantle
and inner-core sensitive normal modes. Phys. Earth Planet. Inter. , 2004. 146 :
p. 113-124.
103. Su, W. and A.M. Dziewonski, Simultaneous inversion for 3-D variations in shear
and bulk velocity in the mantle. Phys. Earth Planet. Inter. , 1997. 100 : p. 135-156.
104. Simmons, N.A., A.M. Forte, and S.P. Grand, Thermochemical structure and
dynamics of the African superplume. Geophys. Res. Lett ., 2007. 34 :
doi:10.1029/2006GL028009.
105. Menard, H.W., Darwin reprise. J. Geophys. Res ., 1984. 89 : p. 9960-9968.
106. McKenzie, D.P. and N. Weiss, Speculations on the thermal and tectonic history of
the earth. Geophys. J. R. Astron. Soc ., 1975. 42 : p. 131-174.
107. Wasserburg, G.J. and D.J. DePaolo, Models of earth structure inferred from
neodymium and strontium isotopic abundances. Proc. Natl. Acad. Sci. USA , 1979.
76 : p. 3594-3598.
108. Kellogg, L.H., B.H. Hager, and R.D. Van Der Hilst, Compositional stratification in
the deep mantle. Science , 1999. 283 : p. 1881-1884.
Search WWH ::




Custom Search