Geoscience Reference
In-Depth Information
Kronenberg, A.K. & Tullis, J., 1984. Flow strength of
quartz aggregates: grain size and pressure effects
due to hydrolytic weakening,
J Geophys Res
,
89
,
4281-4297.
Kubo, T., Kaneshima, S., Torii, Y. & Yoshioka, S.,
2009. Seismological and experimental constraints on
metastable phase transformations and rheology of the
Mariana slab,
Earth Planet Sci Lett
,
287
, 12-23.
Lainey, V., Dehant, V. & Patzold, M., 2007. First nu-
merical ephemerides of the Martian moons,
Astron
Astrophys
,
465
, 1075-1084.
Lambert, I.B. & Wyllie, P.J., 1970. Low-velocity zone
of the Earth's mantle: Incipient melting caused by
water,
Science
,
169
, 764-766.
Landuyt, W. & Bercovici, D., 2009. Formation and struc-
ture of lithospheric shear zones with damage,
Phys
Earth Planet Inter
,
175
, 115-126.
Landuyt, W., Bercovici, D. & Ricard, Y., 2009. Plate
generation and two-phase damage theory in a model
of mantle convection,
Geophys J Int
,
174
, 1065-1080.
Langdon, T.G., 1975. Grain boundary processes during
creep. In J.C.M. Li &M.K. Mukherjee (eds),
Rate Pro-
cesses in Plastic Deformation of Materials
, American
Society of Metals, Metals Park, OH, pp. 410-433.
Langdon, T.G., 1994. A unified approach to grain bound-
ary sliding in creep and superplasticity,
Acta Metal
Mater
,
42
, 2437-2443.
Lay, T., Hernlund, J. & Buffett, B.A., 2008. Core-mantle
boundary heat flow,
Nat Geosys
,
1
, 25-32.
Lenardic, A. &Moresi, L.N., 1999. Some thoughts on the
stability of cratonic lithosphere: effects of buoyancy
and viscosity,
J Geophys Res
,
104
, 12747-12759.
Lev, E. & Hager, B.H., 2008. Rayleigh-Taylor instabili-
ties with anisotropic lithospheric viscosity,
Geophys
JInt
,
173
, 806-814.
Li, P., Karato, S. & Wang, Z., 1996. High-temperature
creep in fine-grained polycrystalline CaTiO
3
,anana-
logue material of (Mg,Fe)SiO
3
perovskite,
Phys Earth
Planet Inter
,
95
, 19-36.
Liebermann, R.C., 1982. Elasticity of minerals at high
pressure and temperature. In W. Schreyer (ed.),
High Pressure Research in Geosciences
, Schweizer-
bartsche, Stuttgart, pp. 1-14.
Lifshitz, I.M., 1963. On the theory of diffusion-viscous
flow of polycrystalline bodies,
Sov Phys JETP
,
17
,
909-920.
Lifshitz, I.M. & Shikin, V.B., 1965. The theory of dif-
fusional viscous flow of polycrystalline solids,
Sov
Phys, Solid State
,
6
, 2211-2218.
Mackwell, S.J., Kohlstedt, D.L. & Paterson, M.S., 1985.
The role of water in the deformation of olivine single
crystals,
J Geophys Res
,
90
, 11319-11333.
Mackwell, S.J., Zimmerman, M.E. & Kohlstedt, D.L.,
1998. High-temperature deformation of dry diabase
with application to tectonics on Venus,
J Geophys
Res
,
103
, 975-984.
Manga, M., 1996. Mixing of heterogeneities in the man-
tle: effect of viscosity differences,
Geophys Res Lett
,
23
, 403-406.
Meade, C. & Jeanloz, R., 1988. Yield strength of the B1
and B2 phases of NaCl,
J Geophys Res
,
93
, 3270-3274.
Mei, S. & Kohlstedt, D.L., 2000a. Influence of water on
plastic deformation of olivine aggregates, 1. Diffusion
creep regime,
J Geophys Res
,
105
, 21457-21469.
Mei, S. & Kohlstedt, D.L., 2000b. Influence of water on
plastic deformation of olivine aggregates, 2. Disloca-
tion creep regime,
J Geophys Res
,
105
, 21471-21481.
Merkel, S., Kubo, A., Miyagi, L., Speziale, S., Duffy, T.S.,
Mao, H.-K. &Wenk, H.-R., 2006. Plastic deformation
of MgGeO
3
post-perovsite at lower mantle pressures,
Science
,
311
, 644-646.
Merkel, S., McNamara, A.K., Kubo, A., Speziale, S.,
Miyagi, L., Meng, Y., Duffy, T.S. &Wenk, H.-R., 2007.
Deformation of (Mg,Fe)SiO
3
post-perovskite and D”
anisotropy,
Science
,
316
, 1729-1732.
Merkel, S., Wenk, H.-R., Badro, J., Montagnac, G., Gillet,
P., Mao, H.-K. & Hemley, R.J., 2003. Deformation of
(Mg
0.9
,Fe
0.1
)SiO
3
perovskite aggregates up to 32GPa,
Earth Planet Sci Lett
,
209
, 351-360.
Miyagi, L., Kanitpanyacharoen, W., Kaercher, P., Lee,
K.K.M. &Wenk, H.-R., 2011. Slip systems in MgSiO
3
post-perovskite:
Implications for D
anisotropy,
Science
,
329
, 1639-1641.
Nabarro, F.R.N., 1948. Deformation of crystals by the
motion of single ions. In
Report of a conference on
Strength of Solids
, The Physical Society of London,
pp. 75-90.
Nakada, M. & Karato, S., 2012. Low viscosity of the
bottom of the Earth's mantle inferred from the anal-
ysis of Chandler wobble and tidal deformation,
Phys
Earth Planet Sci Lett
,
192/193
, 68-80.
Nakada, M. & Lambeck, K., 1989. Late Pleistocene and
Holocene sea-level change in the Australian region
and mantle rheology,
Geophys J Int
,
96
, 497-517.
Nicolas, A., 1978. Stress estimates from structural stud-
ies in some mantle peridotites,
Phil Trans Roy Soc
Lond
,
A288
, 49-57.
Nieh, T.G., Wadsworth, J. & Sherby, O.D., 1997.
Su-
perplasticity in Metals and Ceramics
, Cambridge
University Press, Cambridge.
