Geology Reference
In-Depth Information
65. Davies, G.F., Mantle regulation of core cooling: a geodynamo without core
radioactivity?
Phys. Earth Planet. Inter.
, 2007.
160
: p. 215-229.
66. Nimmo, F.,
et al.
, The influence of potassium on core and geodynamo evolution.
Geophys. J. Int
., 2004.
156
: p. 363-376.
67. Whitehead, J.A. and D.S. Luther, Dynamics of laboratory diapir and plume models.
J. Geophys. Res
., 1975.
80
: p. 705-717.
68. Griffiths, R.W. and I.H. Campbell, Stirring and structure in mantle plumes.
Earth
Planet. Sci. Lett
., 1990.
99
: p. 66-78.
69. Morgan, W.J., Hotspot tracks and the opening of the Atlantic and Indian Oceans, in
The Sea
, C. Emiliani, Editor. 1981, New York: Wiley. p. 443-487.
70. Coffin, M.F. and O. Eldholm, Large igneous provinces: crustal structure, dimensions
and external consequences.
Rev. Geophys
., 1994.
32
: p. 1-36.
71. Richards, M.A., R.A. Duncan, and V.E. Courtillot, Flood basalts and hot-spot tracks:
plume heads and tails.
Science
, 1989.
246
: p. 103-107.
72. White, R. and D. McKenzie, Magmatism at rift zones: the generation of
volcanic continental margins and flood basalts.
J. Geophys. Res
., 1989.
94
:
p. 7685-7730.
73. Campbell, I.H., M.J. Cordery, and G. Davies. The relationship between mantle
plumes and continental flood basalts. in
Proceedings of the International Field
Conference and Symposium on Petrology and Metallogeny of Volcanic and Intrusive
Rocks of the Midcontinent Rift System
. 1995.
74. Hofmann, A.W. and W.M. White, Mantle plumes from ancient oceanic crust.
Earth
Planet. Sci. Lett
., 1982.
57
: p. 421-436.
75. Cordery, M.J., G.F. Davies, and I.H. Campbell, Genesis of flood basalts from
eclogite-bearing mantle plumes.
J. Geophys. Res
., 1997.
102
: p. 20179-20197.
76. Leitch, A.M. and G.F. Davies, Mantle plumes and flood basalts: enhanced melting
from plume ascent and an eclogite component.
J. Geophys. Res
., 2001.
106
:
p. 2047-2059.
77. Leitch, A.M., G.F. Davies, and M. Wells, A plume head melting under a rifting
margin.
Earth Planet. Sci. Lett
., 1998.
161
: p. 161-177.
78. Clouard, V. and A. Bonneville, How many Pacific hotspots are fed by deep-mantle
plumes?
Geology
, 2001.
29
: p. 695-698.
79. Natland, J.H. and E.L. Winterer, Fissure control on volcanic action in the Pacific, in
Plumes, Plates and Paradigms
, G.R. Foulger,
et al.
, Editors. 2005, Boulder, CO:
Geological Society of America.
80. Yasuda, A., T. Fujii, and K. Kurita, Melting phase relations of an anhydrous
mid-ocean ridge basalt from 3 to 20 GPa: implications for the behavior of subducted
oceanic crust in the mantle.
J. Geophys. Res
., 1994.
99
: p. 9401-9414.
81. Lin, S. and P.E. van Keken, Dynamics of thermochemical plumes: 2. Complexity of
plume structures and its implications for mapping mantle plumes.
Geochem.
Geophys. Geosyst.
, 2006.
7
(3): Q03003, doi:10.1029/2005GC001072.
82. Lin, S.-C. and P.E. van Keken, Multiple volcanic episodes of flood basalts caused by
thermochemical mantle plumes.
Nature
, 2005.
436
: p. 250-252.
83. Kumagai, I.,
et al.
, Mantle plumes: thin, fat, successful, or failing? Constraints to
explain hot spot volcanism through time and space.
Geophys. Res. Lett
., 2008.
35
:
L16301, doi:10.1029/2008GL035079.
84. Farnetani, C.G. and H. Samuel, Beyond the thermal plume paradigm.
Geophys. Res.
Lett
., 2005.
32
: L07311, doi:10.1029/2005GL022360.
85. Stefanick, M. and D.M. Jurdy, The distribution of hot spots.
J. Geophys. Res
., 1984.
89
: p. 9919-9925.
