Litcius/Paper detail

Ignition of the southern Atlantic seafloor spreading machine without hot-mantle booster

Daniel Sauter, Giänreto Manatschal, Nick Kusznir, Charles Masquelet, Philippe Werner, Marc Ulrich, Paul Bellingham, Dieter Franke, Julia Autin

2023Scientific Reports22 citationsDOIOpen Access PDF

Abstract

The source of massive magma production at volcanic rifted margins remains strongly disputed since the first observations of thick lava piles in the 1980s. However, volumes of extruded and intruded melt products within rifted continental crust are still not accurately resolved using geophysical methods. Here we investigate the magma budget alongside the South Atlantic margins, at the onset of seafloor spreading, using high-quality seismic reflection profiles to accurately estimate the oceanic crustal thickness. We show that, along ~ 75% of the length of the Early-Cretaceous initial spreading centre, the crustal thickness is similar to regular oceanic thickness with an age > 100 Ma away from hot spots. Thus, most of the southernmost Atlantic Ocean opened without anomalously hot mantle, high magma supply being restricted to the Walvis Ridge area. We suggest that alternative explanations other than a hotter mantle should be favoured to explain the thick magmatic layer of seaward dipping reflectors landward of the initial mid-oceanic ridge.

Topics & Concepts

GeologySeafloor spreadingMantle (geology)Oceanic crustMid-ocean ridgeMid-Atlantic RidgeRidgeCrustHotspot (geology)Magma chamberLavaContinental crustSeismologyVolcanoSubductionPetrologyPaleontologyMagmaTectonicsGeological and Geochemical Analysisearthquake and tectonic studiesHigh-pressure geophysics and materials