Metamorphism and evolution of plate tectonics
Stern, R. J. The evolution of plate tectonics. Philos. Trans. R. Soc. A 376, 20170406 (2018).
Cawood, P.A. et al. Geological archive of the start of plate tectonics. Philos. Trans. R. Soc. A 376, 20170405 (2018).
Korenaga, J. Evolution of the earth's crust and mantle dynamics via the historical past of the Earth. Philos. Trans. R. Soc. A 376, 20170408 (2018).
Brown, M. & Johnson, T. Arrow of time, cycle of time: granulite metamorphism and geodynamics. Mineral. Magazine. 83, 323-338 (2019).
Miyashiro, A. Evolution of metamorphic belts. J. Petrol. 2, 277-311 (1961).
Brown, M. The duality of thermal regimes is the distinctive function of plate tectonics since Neoarcheen. Geology 34, 961-964 (2006).
Stern, R. J. Testimonies of ophiolites, blueschists and ultra-high strain metamorphic terranes establishing that the fashionable episode of subduction tectonics started within the Neoproterozoic. Geology 33, 557-560 (2005).
Stern, R.J., Leybourne, M.I. & Tsujimori, T. Kimberlites and the start of plate tectonics. Geology 44, 799-802 (2016).
Harrison, T. M. The crust of Hadean: proof of zircons> four Ga. Annu. Planet Earth Rev. Sci. 37, 479-505 (2009).
Ganne, J. et al. Fashionable fashion plate subduction preserved within the Paleoproterozoic West African craton. Nat. Geosci. 5, 60-65 (2012).
Weller, O. M. and St-Onge, M. R. Recording of modern-style plate tectonics within the trans-Hudson Paleoproterozoic orogen. Nat. Geosci. 10, 305-311 (2017).
Xu, C. et al. Deep chilly subduction recorded by the stays of a Paleoproterozoic carbon plate. Nat. Widespread. 9, 1-Eight (2018).
Goldfarb, R.J., Bradley, D. and Leach, D. L. Secular variation in financial geology. Econ. Geol. 105, 459-465 (2010).
Russell, M.J., Corridor, A.J. and Martin, W. Serpentinization as a supply of vitality on the origin of life. Geobiology Eight, 355-371 (2010).
Turner, S., T. Rushmer, M. Reagan and M. F. F. Starting of subduction on Earth. Geology 42, 139-142 (2014).
Condie, Ok.C. & Aster, R.C. Episodic zirconic age spectra of orogenic granitoids: connection of supercontinent and continental progress. Precambr. Res. 180, 227-236 (2010).
Puetz, S.J., Ganade, C.E., Zimmermann, U. & Borchardt, G. Statistical Analyzes of the 2017 U-Pb World Database. Geoscience Frontiers 9, 121-145 (2018).
Campbell, I.H. & Allen, C.M. Supercontinent formation associated to a rise in atmospheric oxygen. Nat. Geosci. 1, 554-558 (2008).
Glassley, W.E., Korstgard, J.A., Sorensen, Ok. & Platou, S.W. A brand new UHP metamorphic advanced within the 1.Eight Ga Nagssugtoqidian orogen of West Greenland. A m. Mineral. 99, 1315-1334 (2014).
Shapiro, S.S. & Wilk, M.B.A variance evaluation check for normality (full samples). Biometrika 52, 591-611 (1965).
Herzberg, C., Condie, Ok. & Korenaga, J. Thermal historical past of the Earth and its petrological expression. Earth. Sci. Lett. 292, 79-88 (2010).
Condie, Ok.C., Aster, R.C. and Van Hunen, J. A big mantle thermal divergence beginning at 2.5 Ga: geochemical constraints of greenstone basalts and komatiites. Geoscience Frontiers 7, 543-553 (2016).
Keller, B. & Schoene, B. Plate tectonics and basaltic continental geochemistry in the course of the historical past of the Earth. Earth. Sci. Lett. 481, 290-304 (2018).
Langmuir, C.H., Klein, E.M. & Plank, T. in Mantle Circulate and Soften Technology at Mid-Ocean Ridges (Morgan eds, J.P. et al.) 183-280 (American Geophysical Union, 1992).
Korenaga, J. in Archean Geodynamics and Environments (eds Benn, Ok. et al.) 7-32 (American Geophysical Union, 2006).
Chapman, A. D. Pelona – Orocopia – Rand shales and associated shales from southern California: a assessment of the perfect – identified shallow subduction data on the planet. Int. Geol. Rev. 59, 664-701 (2017).
Hacker, B.R. & Gerya, T.V Paradigms, new and previous, for ultra-high strain tectonism. Tectonophysics 603, 79-88 (2013).
Sizova, E., Gerya, T. & Brown, M. Totally different types of Phanerozoic and Precambrian continental collision. Gondwana Res. 25, 522-545 (2014).
Chowdhury, P., Gerya, T. and Chakraborty, S. Emergence of silicic continents when the decrease crust comes off on a hot-plate tectonic Earth. Nat. Geosci. 10, 698-703 (2017).
Johnson, T.E., Brown, M., Kaus, B.J.P. and Vantongeren, J. A. Delamination and recycling of Archean crust brought on by gravitational instabilities. Nat. Geosci. 7, 47-52 (2014).