Email this article 
The Effect of Heavy Inclusions in the Upper Crust on Thermoconvective Instability of the Lithosphere
- Authors: Birger B.I.1
-
Affiliations:
- Schmidt Institute of Physics of the Earth, Russian Academy of Sciences
- Issue: No 3 (2024)
- Pages: 18-29
- Section: Articles
- URL: https://bakhtiniada.ru/0002-3337/article/view/256216
- DOI: https://doi.org/10.31857/S0002333724030034
- EDN: https://elibrary.ru/ANLAOI
- ID: 256216
Cite item
Open Access
Access granted
Abstract
The method of linear theory for small perturbations is used to study the stability of heavy inclusions in the upper crust. The existence of such inclusions of increased density is associated with chemical heterogeneity or phase transitions. At small deformations considered in the linear stability theory, the material undergoes transient creep which is described by the Andrade rheological model. Under this rheology, the convective instability of thickened segments of the lithosphere is oscillatory: the increment is a complex number whose real part is close to zero (threshold instability). Heavy inclusions in the upper crust introduce a small complex correction to the increment that determines the convective instability of the lithosphere, slightly increasing the real and imaginary parts of the increment, enhancing the instability and increasing the oscillation frequency.
Full Text
About the authors
B. I. Birger
Schmidt Institute of Physics of the Earth, Russian Academy of Sciences
Author for correspondence.
Email: birgerbor@mail.ru
Russian Federation, Moscow
References
- Биргер Б.И. Влияние скачка плотности на конвективную устойчивость мантии Земли // Докл. АН СССР. 1988. Т. 302. № 3. C. 570–575.
- Биргер Б.И. Затухание сейсмических волн и универсальная реологическая модель мантии Земли // Физика Земли. 2007. № 8. C. 17–23.
- Биргер Б.И. Динамика литосферы Земли. М.: Ленанд. 2016. 256 с.
- Биргер Б.И. Ползучесть Андраде при восстанавливающих изостазию течениях в мантии // Физика Земли. 2018. № 6. C. 48–58.
- Биргер Б.И. Гравитационная неустойчивость вязкоупругой земной коры // Физика Земли. 2023. № 2. C. 49–61.
- Биргер Б.И. Устойчивость тяжелых включений в земной коре // Физика Земли. 2024. № 1. С. 95–104.
- Гершуни Г.З., Жуховицкий Е.М. Конвективная устойчивость несжимаемой жидкости. М.: Наука. 1972. 392 с.
- Теркот Д., Шуберт Дж. Геодинамика. Геологические приложения физики сплошных сред. М.: Мир. 1985. 730 с.
- Anderson D. Lithosphere, asthenosphere, and perisphere // Reviews of Geophysics. 1995. V. 31. P. 125–149.
- Birger B.I. Rheology of the Earth and thermoconvective mechanism for sedimentary basins formation // Geophys. J. Inter. 1998. V. 134. P. 1–12.
- Birger B.I. Temperature-dependent transient creep and dynamics of cratonic lithosphere // Geophys. J. Inter. 2013. V. 195. P. 695–705.
- Cathles L.M. The viscosity of the Earth’s mantle. Princeton university press, 1975. 386 p.
- Karato S. Deformation of Earth Materials. An Introduction to the Rheology of Solid Earth. Cambridge university press. 2008. 463 p.
- Richter F.M., Johnson C.E. Stability of a chemically layered mantle // J. Geophys. Res. 1974. V. 79. № 11. P. 1635–1639.
Supplementary files
