Kleine-Marshall B, Smit MJ, Toro Vivanco DI, Thomassot E, Müller N, di Stefano AM, Pope E, Waight TE, Jeon H, Whitehouse MJ, Padilla K, Wiese F, Fridriksson T, Ármansson H, Gunnarsdóttir SH, Mesfin KG, Sigurðardóttir ÁK, Fiebig J, Ricci A, Gunnarsson-Robin J, Halldórsson SA, Ono S, Sveinbjörnsdóttir ÁE, Stefánsson A (2025)
Publication Type: Journal article
Publication year: 2025
Book Volume: 26
Article Number: e2025GC012219
Issue: 10
DOI: 10.1029/2025GC012219
Rift zones, both on land and submarine, are key pathways for mantle-derived CO2 degassing to the Earth's surface. Fixation of CO2 as carbonates plays a critical role in regulating these emissions. This study examines carbon abundance and isotope compositions in hydrothermal fluids, altered rocks, and carbonates from geothermal systems in both Iceland rift and off-rift. Hydrothermal fluids exhibit wide CO2 concentrations (6.1–70.4 mmol kg−1) but narrow δ13C values (−4.8 to −2.5‰) assuming limited to no fractionation between vapor and liquid phases, in contrast to the broader δ13C range of carbonates (−14.5 to +0.5‰). Altered rocks contain up to 4.33 wt.% carbon, with enrichment in the upper 1,000 m of geothermal systems. Isotopic and geochemical modeling indicate that carbon is sourced from the mantle. Decompression boiling and water-rock interaction drive carbonate formation, but only 1%–10% of mantle-derived CO2 is sequestered in on-land rift carbonates, with the majority emitted via hydrothermal fluids. In contrast, Icelandic off-rift low-temperature systems represent significant CO2 sinks due to limited boiling processes. This study suggests that submarine rift zones, lacking prominent boiling processes, may sequester mantle-derived CO2 more effectively into oceanic crust, facilitating long-term recycling into the mantle. These findings highlight the limited capacity of on-land rift systems to retain mantle-derived CO2, underscoring the contrasting roles of terrestrial and submarine environments in global carbon cycling.
APA:
Kleine-Marshall, B., Smit, M.J., Toro Vivanco, D.I., Thomassot, E., Müller, N., di Stefano, A.M.,... Stefánsson, A. (2025). Carbon Isotope and Abundance Systematics Reveal an Insignificant Crustal Sink of Mantle‐Derived CO2 in On‐Land Rift Zone Geothermal Systems. Geochemistry Geophysics Geosystems, 26. https://doi.org/10.1029/2025GC012219
MLA:
Kleine-Marshall, Barbara, et al. "Carbon Isotope and Abundance Systematics Reveal an Insignificant Crustal Sink of Mantle‐Derived CO2 in On‐Land Rift Zone Geothermal Systems." Geochemistry Geophysics Geosystems 26 (2025).
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