Bifurcation in the growth of continental crust
Dennis H\"oning, Nicola Tosi, Hendrik Hansen-Goos, Tilman Spohn

TL;DR
This paper investigates whether positive feedback mechanisms in plate tectonics could explain the history of continental crust growth, challenging the idea of a stable equilibrium in Earth's water-land ratio.
Contribution
It introduces a model analyzing feedbacks in continental growth, highlighting the potential dominance of positive feedbacks over stabilizing negative ones.
Findings
Positive feedbacks may dominate continental growth mechanisms.
Negative feedbacks include erosion and crustal delamination.
Model suggests plausible explanation for observed continental growth history.
Abstract
Is the present-day water-land ratio a necessary outcome of the evolution of plate tectonic planets with a similar age, volume, mass, and total water inventory as the Earth? This would be the case - largely independent of initial conditions - if Earth's present-day continental volume were at a stable unique equilibrium with strong self-regulating mechanisms of continental growth steering the evolution to this state. In this paper, we question this conjecture. Instead we suggest that positive feedbacks in the plate tectonics model of continental production and erosion may dominate and show that such a model can explain the history of continental growth. We investigate the main mechanisms that contribute to the growth of the volume of the continental crust. In particular, we analyze the effect of the oceanic plate speed, depending on the area and thickness of thermally insulating…
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