Forearc carbon sink reduces long-term volatile recycling into the mantle

P. H. Barry; J. M. de Moor; D. Giovannelli; M. Schrenk; D. R. Hummer; T. Lopez; C. A. Pratt; Y. Alpízar Segura; A. Battaglia; P. Beaudry; G. Bini; M. Cascante; G. d’Errico; M. di Carlo; D. Fattorini; K. Fullerton; E. Gazel; G. González; S. A. Halldórsson; K. Iacovino; J. T. Kulongoski; E. Manini; M. Martínez; H. Miller; M. Nakagawa; S. Ono; S. Patwardhan; C. J. Ramírez; F. Regoli; F. Smedile; S. Turner; C. Vetriani; M. Yücel; C. J. Ballentine; T. P. Fischer; D. R. Hilton; K. G. Lloyd

doi:10.1038/s41586-019-1131-5

Forearc carbon sink reduces long-term volatile recycling into the mantle

P. H. Barry
, J. M. de Moor
, D. Giovannelli
, M. Schrenk
, D. R. Hummer
, T. Lopez
, C. A. Pratt
, Y. Alpízar Segura
, A. Battaglia
, P. Beaudry
, G. Bini
, M. Cascante
, G. d’Errico
, M. di Carlo
, D. Fattorini
, K. Fullerton
, E. Gazel
, G. González
, S. A. Halldórsson
, K. Iacovino

J. T. Kulongoski, E. Manini, M. Martínez, H. Miller, M. Nakagawa, S. Ono, S. Patwardhan, C. J. Ramírez, F. Regoli, F. Smedile, S. Turner, C. Vetriani, M. Yücel, C. J. Ballentine, T. P. Fischer, D. R. Hilton, K. G. Lloyd

Science Institute

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

Carbon and other volatiles in the form of gases, fluids or mineral phases are transported from Earth’s surface into the mantle at convergent margins, where the oceanic crust subducts beneath the continental crust. The efficiency of this transfer has profound implications for the nature and scale of geochemical heterogeneities in Earth’s deep mantle and shallow crustal reservoirs, as well as Earth’s oxidation state. However, the proportions of volatiles released from the forearc and backarc are not well constrained compared to fluxes from the volcanic arc front. Here we use helium and carbon isotope data from deeply sourced springs along two cross-arc transects to show that about 91 per cent of carbon released from the slab and mantle beneath the Costa Rican forearc is sequestered within the crust by calcite deposition. Around an additional three per cent is incorporated into the biomass through microbial chemolithoautotrophy, whereby microbes assimilate inorganic carbon into biomass. We estimate that between 1.2 × 10⁸ and 1.3 × 10¹⁰ moles of carbon dioxide per year are released from the slab beneath the forearc, and thus up to about 19 per cent less carbon is being transferred into Earth’s deep mantle than previously estimated.

Original language	English
Pages (from-to)	487-492
Number of pages	6
Journal	Nature
Volume	568
Issue number	7753
DOIs	https://doi.org/10.1038/s41586-019-1131-5
Publication status	Published - 25 Apr 2019

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Barry, P. H., de Moor, J. M., Giovannelli, D., Schrenk, M., Hummer, D. R., Lopez, T., Pratt, C. A., Segura, Y. A., Battaglia, A., Beaudry, P., Bini, G., Cascante, M., d’Errico, G., di Carlo, M., Fattorini, D., Fullerton, K., Gazel, E., González, G., Halldórsson, S. A., ... Lloyd, K. G. (2019). Forearc carbon sink reduces long-term volatile recycling into the mantle. Nature, 568(7753), 487-492. https://doi.org/10.1038/s41586-019-1131-5

@article{df63cceff63e49b886d8b56ba1ed49fd,

title = "Forearc carbon sink reduces long-term volatile recycling into the mantle",

abstract = "Carbon and other volatiles in the form of gases, fluids or mineral phases are transported from Earth{\textquoteright}s surface into the mantle at convergent margins, where the oceanic crust subducts beneath the continental crust. The efficiency of this transfer has profound implications for the nature and scale of geochemical heterogeneities in Earth{\textquoteright}s deep mantle and shallow crustal reservoirs, as well as Earth{\textquoteright}s oxidation state. However, the proportions of volatiles released from the forearc and backarc are not well constrained compared to fluxes from the volcanic arc front. Here we use helium and carbon isotope data from deeply sourced springs along two cross-arc transects to show that about 91 per cent of carbon released from the slab and mantle beneath the Costa Rican forearc is sequestered within the crust by calcite deposition. Around an additional three per cent is incorporated into the biomass through microbial chemolithoautotrophy, whereby microbes assimilate inorganic carbon into biomass. We estimate that between 1.2 × 108 and 1.3 × 1010 moles of carbon dioxide per year are released from the slab beneath the forearc, and thus up to about 19 per cent less carbon is being transferred into Earth{\textquoteright}s deep mantle than previously estimated.",

author = "Barry, \{P. H.\} and \{de Moor\}, \{J. M.\} and D. Giovannelli and M. Schrenk and Hummer, \{D. R.\} and T. Lopez and Pratt, \{C. A.\} and Segura, \{Y. Alp{\'i}zar\} and A. Battaglia and P. Beaudry and G. Bini and M. Cascante and G. d{\textquoteright}Errico and M. di Carlo and D. Fattorini and K. Fullerton and E. Gazel and G. Gonz{\'a}lez and Halld{\'o}rsson, \{S. A.\} and K. Iacovino and Kulongoski, \{J. T.\} and E. Manini and M. Mart{\'i}nez and H. Miller and M. Nakagawa and S. Ono and S. Patwardhan and Ram{\'i}rez, \{C. J.\} and F. Regoli and F. Smedile and S. Turner and C. Vetriani and M. Y{\"u}cel and Ballentine, \{C. J.\} and Fischer, \{T. P.\} and Hilton, \{D. R.\} and Lloyd, \{K. G.\}",

note = "Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2019",

month = apr,

day = "25",

doi = "10.1038/s41586-019-1131-5",

language = "English",

volume = "568",

pages = "487--492",

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Barry, PH, de Moor, JM, Giovannelli, D, Schrenk, M, Hummer, DR, Lopez, T, Pratt, CA, Segura, YA, Battaglia, A, Beaudry, P, Bini, G, Cascante, M, d’Errico, G, di Carlo, M, Fattorini, D, Fullerton, K, Gazel, E, González, G, Halldórsson, SA, Iacovino, K, Kulongoski, JT, Manini, E, Martínez, M, Miller, H, Nakagawa, M, Ono, S, Patwardhan, S, Ramírez, CJ, Regoli, F, Smedile, F, Turner, S, Vetriani, C, Yücel, M, Ballentine, CJ, Fischer, TP, Hilton, DR & Lloyd, KG 2019, 'Forearc carbon sink reduces long-term volatile recycling into the mantle', Nature, vol. 568, no. 7753, pp. 487-492. https://doi.org/10.1038/s41586-019-1131-5

TY - JOUR

T1 - Forearc carbon sink reduces long-term volatile recycling into the mantle

AU - Barry, P. H.

AU - de Moor, J. M.

AU - Giovannelli, D.

AU - Schrenk, M.

AU - Hummer, D. R.

AU - Lopez, T.

AU - Pratt, C. A.

AU - Segura, Y. Alpízar

AU - Battaglia, A.

AU - Beaudry, P.

AU - Bini, G.

AU - Cascante, M.

AU - d’Errico, G.

AU - di Carlo, M.

AU - Fattorini, D.

AU - Fullerton, K.

AU - Gazel, E.

AU - González, G.

AU - Halldórsson, S. A.

AU - Iacovino, K.

AU - Kulongoski, J. T.

AU - Manini, E.

AU - Martínez, M.

AU - Miller, H.

AU - Nakagawa, M.

AU - Ono, S.

AU - Patwardhan, S.

AU - Ramírez, C. J.

AU - Regoli, F.

AU - Smedile, F.

AU - Turner, S.

AU - Vetriani, C.

AU - Yücel, M.

AU - Ballentine, C. J.

AU - Fischer, T. P.

AU - Hilton, D. R.

AU - Lloyd, K. G.

PY - 2019/4/25

Y1 - 2019/4/25

N2 - Carbon and other volatiles in the form of gases, fluids or mineral phases are transported from Earth’s surface into the mantle at convergent margins, where the oceanic crust subducts beneath the continental crust. The efficiency of this transfer has profound implications for the nature and scale of geochemical heterogeneities in Earth’s deep mantle and shallow crustal reservoirs, as well as Earth’s oxidation state. However, the proportions of volatiles released from the forearc and backarc are not well constrained compared to fluxes from the volcanic arc front. Here we use helium and carbon isotope data from deeply sourced springs along two cross-arc transects to show that about 91 per cent of carbon released from the slab and mantle beneath the Costa Rican forearc is sequestered within the crust by calcite deposition. Around an additional three per cent is incorporated into the biomass through microbial chemolithoautotrophy, whereby microbes assimilate inorganic carbon into biomass. We estimate that between 1.2 × 108 and 1.3 × 1010 moles of carbon dioxide per year are released from the slab beneath the forearc, and thus up to about 19 per cent less carbon is being transferred into Earth’s deep mantle than previously estimated.

AB - Carbon and other volatiles in the form of gases, fluids or mineral phases are transported from Earth’s surface into the mantle at convergent margins, where the oceanic crust subducts beneath the continental crust. The efficiency of this transfer has profound implications for the nature and scale of geochemical heterogeneities in Earth’s deep mantle and shallow crustal reservoirs, as well as Earth’s oxidation state. However, the proportions of volatiles released from the forearc and backarc are not well constrained compared to fluxes from the volcanic arc front. Here we use helium and carbon isotope data from deeply sourced springs along two cross-arc transects to show that about 91 per cent of carbon released from the slab and mantle beneath the Costa Rican forearc is sequestered within the crust by calcite deposition. Around an additional three per cent is incorporated into the biomass through microbial chemolithoautotrophy, whereby microbes assimilate inorganic carbon into biomass. We estimate that between 1.2 × 108 and 1.3 × 1010 moles of carbon dioxide per year are released from the slab beneath the forearc, and thus up to about 19 per cent less carbon is being transferred into Earth’s deep mantle than previously estimated.

UR - https://www.scopus.com/pages/publications/85065290071

U2 - 10.1038/s41586-019-1131-5

DO - 10.1038/s41586-019-1131-5

M3 - Article

C2 - 31019327

SN - 0028-0836

VL - 568

SP - 487

EP - 492

JO - Nature

JF - Nature

IS - 7753

ER -

Forearc carbon sink reduces long-term volatile recycling into the mantle

Abstract

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