TY - JOUR
T1 - Rupture of wet mantle wedge by self-promoting carbonation
AU - Okamoto, Atsushi
AU - Oyanagi, Ryosuke
AU - Yoshida, Kazuki
AU - Uno, Masaoki
AU - Shimizu, Hiroyuki
AU - Satish-Kumar, Madhusoodhan
N1 - Funding Information:
We thank Kenichi Hirauchi and Mutsuki Aoya for useful discussions, and Shinichi Yamasaki and Otgongayar Dandar for XRF analyses. Fang Huang kindly introduced us to the DEW modeling. Discussion with J.A.D. Connolly helped in clarifying the relation between oxygen fugacity and carbonation reactions. The authors acknowledge con-structive comments from two anonymous reviewers that substantially improved this manuscript. This work was financially supported by JSPS KAKENHI Grant Numbers JP 16H06347, 18KK0376, and 17H02981 to A.O., and JP15H05831 and 20KK0081 to M.S.-K, and by Earthquake Res. Inst., the University of Tokyo, Joint Research program 2021-B-01 and 2018-B-01.
Funding Information:
We thank Kenichi Hirauchi and Mutsuki Aoya for useful discussions, and Shinichi Yamasaki and Otgongayar Dandar for XRF analyses. Fang Huang kindly introduced us to the DEW modeling. Discussion with J.A.D. Connolly helped in clarifying the relation between oxygen fugacity and carbonation reactions. The authors acknowledge constructive comments from two anonymous reviewers that substantially improved this manuscript. This work was financially supported by JSPS KAKENHI Grant Numbers JP 16H06347, 18KK0376, and 17H02981 to A.O., and JP15H05831 and 20KK0081 to M.S.-K, and by Earthquake Res. Inst., the University of Tokyo, Joint Research program 2021-B-01 and 2018-B-01.
Publisher Copyright:
© The Author(s) 2021.
PY - 2021
Y1 - 2021
N2 - More than one teramole of carbon per year is subducted as carbonate or carbonaceous material. However, the influence of carbonation/decarbonation reactions on seismic activity within subduction zones is poorly understood. Here we present field and microstructural observations, including stable isotope analyses, of carbonate veins within the Higuchi ser-pentinite body, Japan. We find that the carbon and oxygen isotope compositions of carbonate veins indicate that carbonic fluids originated from organic materials in metasediments. Thermodynamic calculations reveal that carbonation of serpentinite was accompanied by a solid volume decrease, dehydration, and high magnesium mobility. We propose that carbonation of the mantle wedge occurs episodically in a self-promoting way and is controlled by a solid volume contraction and fluid overpressure. In our conceptual model, brittle fracturing and carbonate precipitation were followed by ductile flow of carbonates and hydrous minerals; this might explain the occurrence of episodic tremor and slip in the serpentinized mantle wedge.
AB - More than one teramole of carbon per year is subducted as carbonate or carbonaceous material. However, the influence of carbonation/decarbonation reactions on seismic activity within subduction zones is poorly understood. Here we present field and microstructural observations, including stable isotope analyses, of carbonate veins within the Higuchi ser-pentinite body, Japan. We find that the carbon and oxygen isotope compositions of carbonate veins indicate that carbonic fluids originated from organic materials in metasediments. Thermodynamic calculations reveal that carbonation of serpentinite was accompanied by a solid volume decrease, dehydration, and high magnesium mobility. We propose that carbonation of the mantle wedge occurs episodically in a self-promoting way and is controlled by a solid volume contraction and fluid overpressure. In our conceptual model, brittle fracturing and carbonate precipitation were followed by ductile flow of carbonates and hydrous minerals; this might explain the occurrence of episodic tremor and slip in the serpentinized mantle wedge.
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U2 - 10.1038/s43247-021-00224-5
DO - 10.1038/s43247-021-00224-5
M3 - Article
AN - SCOPUS:85116933491
SN - 2662-4435
VL - 2
JO - Communications Earth and Environment
JF - Communications Earth and Environment
M1 - 151
ER -