Ganne Jérôme, Feng Xiaojun, Rey P., De Andrade V. (2016). Statistical petrology reveals a link between supercontinents cycle and mantle global climate. American Mineralogist, 101 (12), p. 2768-2773. ISSN 0003-004X.
Titre du document
Statistical petrology reveals a link between supercontinents cycle and mantle global climate
American Mineralogist, 2016,
101 (12), p. 2768-2773 ISSN 0003-004X
The breakup of supercontinents is accompanied by the emplacement of continental flood basalts and dike swarms, the origin of which is often attributed to mantle plumes. However, convection modeling has showed that the formation of supercontinents result in the warming of the sub-continental asthenospheric mantle (SCAM), which could also explain syn-breakup volcanism. Temperature variations during the formation then breakup of supercontinents are therefore fundamental to understand volcanism related to supercontinent cycles. Magmatic minerals record the thermal state of their magmatic sources. Here we present a data mining analysis on the first global compilation of chemical information on magmatic rocks and minerals formed over the past 600 million years: a time period spanning the aggregation and breakup of Pangea, the last supercontinent. We show that following a period of increasingly hotter Mgrich magmatism with dominant tholeiitic affinity during the aggregation of Pangea, lower-temperature minerals crystallized within Mg-poorer magma with a dominant calc-alkaline affinity during Pangea disassembly. These trends reflect temporal changes in global mantle climate and global plate tectonics in response to continental masses assembly and dispersal. We also show that the final amalgamation of Pangea at similar to 300 Myr led to a long period of lithospheric collapse and cooling until the major step of Pangea disassembly started at similar to 125 Myr. The geological control on the geosphere magma budget has implications on the oxidation state and temperature of the Earth's outer envelopes in the Phanerozoic and may have exerted indirect influence on the evolution of climate and life on Earth.
Plan de classement
Géologie et formations superficielles [064]
;
Géophysique interne [066]
