Chariton, Stella, McCammon, Catherine, Vasiukov, Denis M., Stekiel, Michal, Kantor, Anastasia, Cerantola, Valerio, Kupenko, Ilya, Fedotenko, Timofey, Koemets, Egor, Hanfland, Michael, Chumakov, Alexandr I., Dubrovinsky, Leonid (2020) Seismic detectability of carbonates in the deep Earth: A nuclear inelastic scattering study. American Mineralogist, 105 (3) 325-332 doi:10.2138/am-2020-6901

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Reference Type	Journal (article/letter/editorial)
Title	Seismic detectability of carbonates in the deep Earth: A nuclear inelastic scattering study
Journal	American Mineralogist
Authors	Chariton, Stella		Author
	McCammon, Catherine		Author
	Vasiukov, Denis M.		Author
	Stekiel, Michal		Author
	Kantor, Anastasia		Author
	Cerantola, Valerio		Author
	Kupenko, Ilya		Author
	Fedotenko, Timofey		Author
	Koemets, Egor		Author
	Hanfland, Michael		Author
	Chumakov, Alexandr I.		Author
	Dubrovinsky, Leonid		Author
Year	2020 (March 1)	Volume	105
Issue	3
Publisher	Mineralogical Society of America
DOI	doi:10.2138/am-2020-6901Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	398906	Long-form Identifier	mindat:1:5:398906:1
GUID	0
Full Reference	Chariton, Stella, McCammon, Catherine, Vasiukov, Denis M., Stekiel, Michal, Kantor, Anastasia, Cerantola, Valerio, Kupenko, Ilya, Fedotenko, Timofey, Koemets, Egor, Hanfland, Michael, Chumakov, Alexandr I., Dubrovinsky, Leonid (2020) Seismic detectability of carbonates in the deep Earth: A nuclear inelastic scattering study. American Mineralogist, 105 (3) 325-332 doi:10.2138/am-2020-6901
Plain Text	Chariton, Stella, McCammon, Catherine, Vasiukov, Denis M., Stekiel, Michal, Kantor, Anastasia, Cerantola, Valerio, Kupenko, Ilya, Fedotenko, Timofey, Koemets, Egor, Hanfland, Michael, Chumakov, Alexandr I., Dubrovinsky, Leonid (2020) Seismic detectability of carbonates in the deep Earth: A nuclear inelastic scattering study. American Mineralogist, 105 (3) 325-332 doi:10.2138/am-2020-6901
In	(2020, March) American Mineralogist Vol. 105 (3) Mineralogical Society of America
Abstract/Notes	Abstract Carbonates play an important role in the transport and storage of carbon in the Earth’s mantle. However, the abundance of carbon and carbonates in subduction zones is still an unknown quantity. To determine the most abundant accessory phases and how they influence the dynamical processes that operate within the Earth, investigations on the vibrational, elastic, and thermodynamic properties of these phases are crucial for interpreting seismological observations. Recently, the nuclear inelastic scattering (NIS) method has proved to be a useful tool to access information on the lattice dynamics, as well as to determine Debye sound velocities of Fe-bearing materials. Here we derive the acoustic velocities from two carbonate compositions in the FeCO3-MgCO3 binary system up to ~70 GPa using the NIS method. We conclude that more Mg-rich samples, in this case (Fe0.26Mg0.74)CO3, have ~19% higher sound velocities than the pure end-member Fe composition. In addition, we observed a significant velocity increase after the Fe2+ spin transition was complete. After laser heating of FeCO3 at lower mantle conditions, we observed a dramatic velocity drop, which is probably associated with thermal decomposition to another phase. Parallel to our NIS experiments, we conducted a single-crystal X-ray diffraction (SCXRD) study to derive the equation of states of FeCO3 and (Fe0.26Mg0.74)CO3. The combined information from NIS (i.e., Debye velocities) and SCXRD (i.e., densities and bulk moduli) experiments enabled us to derive the primary and shear wave velocities of our samples. Our results are consistent with results obtained by other methods in previous studies, including Brillouin spectroscopy, inelastic X-ray scattering, and DFT calculations, supporting NIS as a reliable alternative method for studying the elastic properties of Fe-bearing systems at high pressures and temperatures. Finally, we discuss the seismic detectability of carbonates. We determine that nearly 22 wt% CO2 must be present in the subduction slab to detect a 1% shear wave velocity decrease compared to non-carbonated lithologies at the transition zone to lower mantle boundary depths.

	Ismailova, Leyla, Bykov, Maxim, Bykova, Elena, Bobrov, Andrey, Kupenko, Ilya, Cerantola, Valerio, Vasiukov, Denis, Dubrovinskaia, Natalia, McCammon, Catherine, Hanfland, Michael, Glazyrin, Konstantin, Liermann, Hanns-Peter, Chumakov, Alexander, Dubrovinsky, Leonid (2017) Effect of composition on compressibility of skiagite-Fe-majorite garnet. American Mineralogist, 102 (1) 184-191 doi:10.2138/am-2017-5856
	Aprilis, Georgios, Pakhomova, Anna, Chariton, Stella, Khandarkhaeva, Saiana, Melai, Caterina, Bykova, Elena, Bykov, Maxim, Fedotenko, Timofey, Koemets, Egor, McCammon, Catherine, Chumakov, Aleksandr I., Hanfland, Michael, Dubrovinskaia, Natalia, Dubrovinsky, Leonid (2020) The Effect of Pulsed Laser Heating on the Stability of Ferropericlase at High Pressures. Minerals, 10 (6) 542 doi:10.3390/min10060542
	Cerantola, Valerio, Bykova, Elena, Kupenko, Ilya, Merlini, Marco, Ismailova, Leyla, McCammon, Catherine, Bykov, Maxim, Chumakov, Alexandr I., Petitgirard, Sylvain, Kantor, Innokenty, Svitlyk, Volodymyr, Jacobs, Jeroen, Hanfland, Michael, Mezouar, Mohamed, Prescher, Clemens, Rüffer, Rudolf, Prakapenka, Vitali B., Dubrovinsky, Leonid (2017) Stability of iron-bearing carbonates in the deep Earth’s interior. Nature Communications, 8. doi:10.1038/ncomms15960
	Cerantola, Valerio, McCammon, Catherine, Kupenko, Ilya, Kantor, Innokenty, Marini, Carlo, Wilke, Max, Ismailova, Leyla, Solopova, Natalia, Chumakov, Aleksandr, Pascarelli, Sakura, Dubrovinsky, Leonid (2015) High-pressure spectroscopic study of siderite (FeCO3) with a focus on spin crossover. American Mineralogist, 100 (11) 2670-2681 doi:10.2138/am-2015-5319
	Cerantola, Valerio, Wilke, Max, Kantor, Innokenty, Ismailova, Leyla, Kupenko, Ilya, McCammon, Catherine, Pascarelli, Sakura, Dubrovinsky, Leonid S. (2019) Experimental investigation of FeCO3 (siderite) stability in Earth's lower mantle using XANES spectroscopy. American Mineralogist, 104 (8) 1083-1091 doi:10.2138/am-2019-6428
	Ismailova, Leyla, Bobrov, Andrey, Bykov, Maxim, Bykova, Elena, Cerantola, Valerio, Kantor, Innokenty, Kupenko, Ilya, McCammon, Catherine, Dyadkin, Vadim, Chernyshov, Dmitry, Pascarelli, Sakura, Chumakov, Alexsandr, Dubrovinskaia, Natalia, Dubrovinsky, Leonid (2015) High-pressure synthesis of skiagite-majorite garnet and investigation of its crystal structure. American Mineralogist, 100 (11) 2650-2654 doi:10.2138/am-2015-5278
	Koemets, Egor, Fedotenko, Timofey, Khandarkhaeva, Saiana, Bykov, Maxim, Bykova, Elena, Thielmann, Marcel, Chariton, Stella, Aprilis, Georgios, Koemets, Iuliia, Glazyrin, Konstantin, Liermann, Hanns‐Peter, Hanfland, Michael, Ohtani, Eiji, Dubrovinskaia, Natalia, McCammon, Catherine, Dubrovinsky, Leonid (2021) Chemical Stability of FeOOH at High Pressure and Temperature, and Oxygen Recycling in Early Earth History*. European Journal of Inorganic Chemistry*, 2021 (30) 3048-3053 doi:10.1002/ejic.202100274
	Koemets, Egor, Fedotenko, Timofey, Khandarkhaeva, Saiana, Bykov, Maxim, Bykova, Elena, Thielmann, Marcel, Chariton, Stella, Aprilis, Georgios, Koemets, Iuliia, Glazyrin, Konstantin, Liermann, Hanns‐Peter, Hanfland, Michael, Ohtani, Eiji, Dubrovinskaia, Natalia, McCammon, Catherine, Dubrovinsky, Leonid (2021) Front Cover: Chemical Stability of FeOOH at High Pressure and Temperature, and Oxygen Recycling in Early Earth History (Eur. J. Inorg. Chem. 30/2021) European Journal of Inorganic Chemistry, 2021 (30) 3021 doi:10.1002/ejic.202100599
	Chariton, Stella, Cerantola, Valerio, Ismailova, Leyla, Bykova, Elena, Bykov, Maxim, Kupenko, Ilya, McCammon, Catherine, Dubrovinsky, Leonid (2018) The high-pressure behavior of spherocobaltite (CoCO3): a single crystal Raman spectroscopy and XRD study. Physics and Chemistry of Minerals, 45 (1) 59-68 doi:10.1007/s00269-017-0902-5
	Kupenko, I., Aprilis, G., Vasiukov, D. M., McCammon, C., Chariton, S., Cerantola, V., Kantor, I., Chumakov, A. I., Rüffer, R., Dubrovinsky, L., Sanchez-Valle, C. (2019) Magnetism in cold subducting slabs at mantle transition zone depths. Nature, 570 (7759). 102-106 doi:10.1038/s41586-019-1254-8
	Aprilis, G., Kantor, I., Kupenko, I., Cerantola, V., Pakhomova, A., Collings, I. E., Torchio, R., Fedotenko, T., Chariton, S., Bykov, M., Bykova, E., Koemets, E., Vasiukov, D. M., McCammon, C., Dubrovinsky, L., Dubrovinskaia, N. (2019) Comparative study of the influence of pulsed and continuous wave laser heating on the mobilization of carbon and its chemical reaction with iron in a diamond anvil cell. Journal of Applied Physics, 125 (9). 95901pp. doi:10.1063/1.5067268

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