Impact of the lithosphere on dynamic topography: Insights from analogue modeling

Density anomalies beneath the lithosphere are expected to generate dynamic topography at the Earth's surface due to the induced mantle flow stresses which scale linearly with density anomalies, while the viscosity of the upper mantle is expected to control uplift rates. However, limited attenti...

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Veröffentlicht in:	Geophysical research letters 2017-03, Vol.44 (6), p.2693-2702
Hauptverfasser:	Sembroni, Andrea, Kiraly, Agnes, Faccenna, Claudio, Funiciello, Francesca, Becker, Thorsten W., Globig, Jan, Fernandez, Manuel
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Sprache:	eng
Schlagworte:	analogue modeling Anomalies Density Dynamic topography Dynamics Earth mantle Earth surface Lithosphere Mantle mantle anomaly Modelling Rheological properties Rheology Stratification surface bulge Thickness Topography Uplift Upper mantle Viscosity Wavelength Wavelengths Yield strength
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creator	Sembroni, Andrea Kiraly, Agnes Faccenna, Claudio Funiciello, Francesca Becker, Thorsten W. Globig, Jan Fernandez, Manuel
description	Density anomalies beneath the lithosphere are expected to generate dynamic topography at the Earth's surface due to the induced mantle flow stresses which scale linearly with density anomalies, while the viscosity of the upper mantle is expected to control uplift rates. However, limited attention has been given to the role of the lithosphere. Here we present results from analogue modeling of the interactions between a density anomaly rising in the mantle and the lithosphere in a Newtonian system. We find that, for instabilities with wavelengths of the same order of magnitude as lithosphere thickness, the uplift rate and the geometry of the surface bulge are inversely correlated to the lithosphere thickness. We also show that a layered lithosphere may modulate the topographic signal. With respect to previous approaches our models represent a novel attempt to unravel the way normal stresses generated by mantle flow are transmitted through a rheologically stratified lithosphere and the resulting topographic signal. Key Points We perform experiments to investigate the role of the lithosphere on dynamic topography We study the topographic signal of a rising mantle anomaly on the lithosphere Surface uplift and bulge aspect ratio are inversely correlated to lithosphere thickness
doi_str_mv	10.1002/2017GL072668
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subjects	analogue modeling Anomalies Density Dynamic topography Dynamics Earth mantle Earth surface Lithosphere Mantle mantle anomaly Modelling Rheological properties Rheology Stratification surface bulge Thickness Topography Uplift Upper mantle Viscosity Wavelength Wavelengths Yield strength
title	Impact of the lithosphere on dynamic topography: Insights from analogue modeling
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