Final Report Abstract

We investigated the stability of iron carbonate at high pressure and high temperature using a laserheated diamond anvil cell combined with single crystal X-ray diffraction and Mössbauer spectroscopy (both applied in house and at synchrotrons) as well as Raman and X-ray Absorption. Near Edge Structure spectroscopies. Spin crossover in powder FeCO3 takes place over a broad pressure range (40-47 GPa) during compression at room temperature, while the transition in single crystals is relatively sharp (43-45 GPa), likely due to varying degrees of differential stress. At higher temperatures (> 1800 K), FeCO3 dissociates into diamond and iron oxides. At higher pressures (> 70 GPa), FeCO3 forms new high-pressure carbonates, Fe4C3O12 up to ~ 2200 K, and Fe4C4O13 at higher temperatures. The latter phase is stable at conditions along the entire geotherm to depths of at least 2,500 km, thus demonstrating that self-oxidation-reduction reactions can preserve carbonates in the Earth’s lower mantle. Our results have been reported in the following media channels: http://www.esrf.eu/home/news/general/content-news/general/scientists-shed-light-on-carbonsdescent-into-the-deep-earth.html https://deepcarbon.net/feature/stable-iron-carbonates-survive-journey-earth%E2%80%99sinterior#.WXDoMISGPmE http://www.uni-bayreuth.de/de/universitaet/presse/pressemitteilungen/2017/099-Kohlenstoffkreislauf/index.html

Publications

• (2015) Spectroscopic study of siderite (FeCO3) to Earth’s lower mantle pressures. Amer Mineral 100: 2670-2681
  Cerantola V, McCammon C, Kupenko I, Kantor IY, Marini C, Ismailova L, Wilke M, Solopova N, Chumakov A, Pascarelli S, Dubrovinsky LS
  (See online at https://doi.org/10.2138/am-2015-5319)
• (2017) Stability of iron-bearing carbonates in the deep Earth's interior. Nature Communications 8:15960
  Cerantola V, Bykova E, Kupenko I, Merlini M, Ismailova L, McCammon C, Bykov M, Chumakov A, Petitgirard S, Kantor I, Svitlyk V, Jacobs J, Prescher C, Rüffer R, Dubrovinsky L
  (See online at https://doi.org/10.1038/ncomms15960)