Sulfides and hollows formed on Mercury’s surface by reactions with reducing S-rich gases
Renggli, CJ; Klemme, S; Morlok, A; Berndt, J; Weber, I; Hiesinger, H; King, PL
Forschungsartikel (Zeitschrift) | Peer reviewedZusammenfassung
The surface of Mercury is enriched in sulfur, with up to 4 wt.% detected by the NASA MESSENGER mission, and has been challenging to understand in the context of other terrestrial planets. We posit, that magmatic S was mobilized as a gas phase in volcanic and impact processes near the surface, exposing silicates to a hot S-rich gas at reducing conditions and allowing conditions for rapid gas-solid reactions. Here we present novel experiments on the reaction of Mercury composition glasses with reduced S-rich gas, forming Ca- and Mg-sulfides. The reaction products provide porous and fragile materials that create previously enigmatic hollows on Mercury. Our model predicts that the gas-solid reaction forms Ca-Mg-Fe-Ti-sulfide assemblages with SiO2 and aluminosilicates, distinct from formation as magmatic minerals. The ESA/JAXA BepiColombo mission to Mercury will allow this hypothesis to be tested.
Details zur Publikation
Autor*innen der Universität Münster
| Gerdes, Jasper | Professur für Petrologie (Prof. Klemme) |
| Hiesinger, Harald | Professur für Geologische Planetologie (Prof. Hiesinger) |
| Klemme, Stephan | Professur für Petrologie (Prof. Klemme) |
| Morlok, Andreas | Professur für Geologische Planetologie (Prof. Hiesinger) |
| Renggli, Christian Josef | Professur für Petrologie (Prof. Klemme) |
| Weber, Iris | Professur für Geologische Planetologie (Prof. Hiesinger) |
Projekte, aus denen die Publikation entstanden ist
Laufzeit: 01.01.2020 - 31.12.2024 | 1. Förderperiode Gefördert durch: DFG - Sonderforschungsbereich Art des Projekts: Teilprojekt in DFG-Verbund koordiniert an der Universität Münster |