Abstract
The elastic thickness (Te) is the computed thickness of a lithospheric plate that responds elastically to long term geological loading by flexure. The loading should take place for more than 105 years. The elastic thickness represents the integrated strength of the lithosphere and is a measure of its resistivity to deformation.
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References
Banks RJ, Parker RL, Huestis SP (1977) Isostatic compensation on a continental scale: local versus regional mechanism. Geophys J R Astron Soc 51:431ā€“452
Braitenberg C, Ebbing J, Gƶtze H-J (2002) Inverse modeling of elastic thickness by convolution methodā€”the eastern Alps as a case example. Earth Planet Sci Lett 202:387ā€“404
Caldwell JG, Turcotte DL (1979) Dependence of the elastic thickness of the oceanic lithosphere on age. J Geophys Res 84:7572ā€“7576
Cazenave A, Lago B, Dominh K, Lambeck K (1980) On the response of the ocean lithosphere to seamount loads from Geos 3 satellite radar altimeter observations. Geophys J R Astron Soc 63:233ā€“252
Courtney RC, Beaumont C (1983) Thermally-activated creep and flexure of the oceanic lithosphere. Nature 305:201ā€“204
Dixon TH, Naraghi M, McNutt MK, Smith SM (1983) Bathymetric prediction from Seasat altimeter data. J Geophys Res 88:1563ā€“1571
Forsyth DW (1985) Subsurface loading and estimates of the flexural rigidity of continental lithosphere. J Geophys Res 90:12623ā€“12632
Goodwillie AM, Watts AB (1993) An altimetric and bathymetric study of elastic thickness in the central Pacific Ocean. Earth Planet Sci Lett 118:311ā€“326
Gunn R (1943) A quantitative evaluation of the influence of the lithosphere on the anomalies of gravity. Franklin Inst J 236:47ā€“65
Lambeck K, Nakiboglu SM (1981) Seamount loading and stress in the ocean lithosphere, 2. Viscoelastic and elastic-viscoelastic models. J Geophys Res 86:6961ā€“6984
Lyons SN, Sandwell DT, Smith WHF (2000) Three-dimensional estimation of elastic thickness under the Louisville Ridge. J Geophys Res 105:13239ā€“13252
McKenzie DP, Bowin CO (1976) The relationship between bathymetry and gravity in the Atlantic Ocean. J Geophys Res 81:1903ā€“1915
McNutt MK, Parker RL (1978) Isostasy in Australia and the evolution of the compensation mechanism. Science 199:773ā€“775
Munk WH, Cartwright DE (1966) Tidal spectroscopy and prediction. J Geophys Res 259:533ā€“581
Nadai A (1963) Theory of flow and fracture of solids, vol 2. McGraw-Hill, New York
Quinlan GM, Beaumont C (1984) Appalachian thrusting, lithospheric flexure and the Paleozoic stratigraphy of the eastern Interior of North America. Can J Earth Sci 21:973ā€“996
Sleep NH, Snell NS (1976) Thermal contraction and flexure of mid-continent and Atlantic marginal basins. Geophys J R Astron Soc 45:125ā€“154
Smith WHF, Sandwell DT (1994) Elastic lithosphere thickness estimated from dense satellite altimetry and sparse shipboard bathymetry. Suppl EOS Trans Am Geophys Union 75(44):154
Talwani M, Worzel JL, Landisman M (1959) Rapid gravity computations for two-dimensional bodies with applications to the Mendocino submarine fracture zone. J Geophys Res 54:49ā€“59
Walcott RI (1970) Flexural rigidity and viscosity of the lithosphere. J Geophys Res 75:3941ā€“3953
Walcott RI (1976) Lithospheric flexure, analysis of gravity anomalies, and the propagation of seamount chains. In: Sutton GH, Manghnani MH, Moberly R (eds) The geophysics of the Pacific Ocean basin and its margins. Geophys Monogr Ser 19. Am Geophys Union. Washington, pp 431ā€“438
Watts AB (1978) An analysis of isostasy in the worldā€™s oceans: 1. Hawaiian-Emperor seamount chain. J Geophys Res 83:5989ā€“6004
Watts AB (1983) The strength of the Earthā€™s crust. Marine Tech Soc J 17: 12ā€“17
Watts AB (2001) Isostacy and flexure of the lithosphere. Cambridge University Press, New York, p 458
Watts AB, ten Brink US (1989) Crustal structure, flexure and subsidence history of the Hawaiian Islands. J Geophys Res 94:10473ā€“10500
Watts AB, Zhong S (2000) Observations of flexure and the rheology of oceanic lithosphere. Geophys J Int 142:855ā€“875
Watts AB, Cochran JR, Patriat P, Doucoure M (1985) A bathymetry and altimetry profile of the Southwest Indian Ridge at 31Ā°S. Earth Planet Sci Lett 73:129ā€“139
Zhong S (1997) Dynamics of crustal compensation and its influences on crustal isostacy. J Geophys Res 102(B7):15287ā€“15299
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Choudhuri, M., NemĨok, M. (2017). Elastic Properties of the Lithosphere. In: Mantle Plumes and Their Effects. SpringerBriefs in Earth System Sciences. Springer, Cham. https://doi.org/10.1007/978-3-319-44239-6_1
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DOI: https://doi.org/10.1007/978-3-319-44239-6_1
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