Наука и технологические разработки: статья

КОНВЕКТИВНАЯ МОДЕЛЬ ТЕПЛОВОГО РЕЖИМА КОНТИНЕНТАЛЬНЫХ КРАТОНОВ
А.П. ТРУБИЦЫН
Институт физики Земли им. О.Ю. Шмидта РАН
Журнал: Наука и технологические разработки
Том: 89
Номер: 4
Год: 2010
Страницы: 29-33
Ключевые слова: земная кора, континентальная литосфера, конвекция, кратоны
Аннотация: КОНВЕКТИВНАЯ МОДЕЛЬ ТЕПЛОВОГО РЕЖИМА КОНТИНЕНТАЛЬНЫХ КРАТОНОВ
Список литературы: Artemieva I.M., Mooney W.D. Thermal thickness and evolution of Precambrian lithosphere: A global study // J. Geophys. Res. 2001. V. 106(B8). P.16387-16414.

Chevro S., van der Hilst R. The Poisson ratio of the Australian crust: Geological and geophysical implications // Earth Planet. Sci. Lett. 2000. V. 183. P.121-132.

Christensen N.I. Poisson's ratio and crustal seismology // J. Geophys. Res. 1996. V. 101(B2). P.3139-3156.

Egorkin A.V. Velocity structure, composition and discrimination of crustal provinces in the former Soviet Union // Tectonophysics. 1998. V. 2978. P.395-404.

Hofmeister A.M. Mantle values of thermal conductivity and the geotherm from phonon lifetimes // Science. 1999. V. 283. P.1699-1705.

Jaupart C., Mareschal J.C. Constraints on crustal heat production from heat flow data // In Treatise of Geochemistry. New York: Elsevier, 2003. V. 3. P.65-84.

Mareschal J.C., Jaupart C. Variations of surface heat flow and lithospheric thermal structure beneath the North American craton // Earth Planet. Sci. Lett. 2004. V. 223. P.65-77.

Martin H. The mechanisms of petrogenesis of the Archaean continental crust - Comparison with modern processes // Lithos. 1993. V. 30. P.373-388.

Mooney W.D., Laske G., Masters T.G. CRUST 5.1: A global crustal model at 5°× 5° // J. Geophys. Res. 1998. V. 103(B1). P.727-747.

Nyblade A.A., Pollack H.N. A global analysis of heat flow from Precambrian terrains: Implications for the thermal structure of Archean and Proterozoic lithosphere // J. Geophys. Res. 1993. V. 98(B7). P. 12207-12218.

Pribnow D., Umsonst T. Estimation of thermal conductivity from the mineral composition: Influence of fabric and anisotropy // Geophys. Res. Lett. 1993. V. 20(20). P.2199- 2202.

Rudnick R.L., Fountain D.M. Nature and composition of the continental crust: A lower crustal perspective // Rev. Geophys. 1995. V. 33. P.267-309.

Rudnick R.L., McDonough W.F., O'Connell R.J. Thermal structure, thickness and composition of continental lithosphere // Chem. Geol. 1998. V. 145. P.395-411.

Schatz J.F., Simmons G. Thermal conductivity of Earth materials at high temperature // J. Geophys. Res. 1972. V. 77(35). P.6966-6983.

Sclater J.G., Jaupart C., Galson D. The heat flow through oceanic and continental crust and the heat loss of the Earth // Rev. Geophys. 1980. V. 18(1). P.269-311.

Seipold U. Der Warmetransport in kristallinen Gesteinen unter den Bedingungen der kontinentalen Kruste (in German) // Tech. Rep. STR01/13. GFZ Potsdam. Potsdam. Germany. 2001.