Carbon fixation rates in groundwater similar to those in oligotrophic marine systems

Overholt, W.A.; Trumbore, S.; Xu, X.; Bornemann, T.L.V.; Probst, A.J.; Krüger Markus, M.; Herrmann, M.; Thamdrup, B.; Bristow, L.A.; Taubert, M.; Schwab, V.F.; Hölzer, M.; Marz, M.; Küsel, K.

doi:/10.1038/s41561-022-00968-5

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Carbon fixation rates in groundwater similar to those in oligotrophic marine systems

Overholt, W.A.; Trumbore, S.; Xu, X.; Bornemann, T.L.V.; Probst, A.J.; Krüger Markus, M.; Herrmann, M.; Thamdrup, B.; Bristow, L.A.; Taubert, M.; Schwab, V.F.; Hölzer, M.; Marz, M.; Küsel, K. (2022). Carbon fixation rates in groundwater similar to those in oligotrophic marine systems. Nature Geoscience 15(7): 561-567. https://dx.doi.org/10.1038/s41561-022-00968-5

In: Nature Geoscience. Nature Publishing Group: London. ISSN 1752-0894; e-ISSN 1752-0908

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Overholt, W.A. Trumbore, S. Xu, X. Bornemann, T.L.V. Probst, A.J.	Krüger Markus, M. Herrmann, M. Thamdrup, B. Bristow, L.A. Taubert, M.	Schwab, V.F. Hölzer, M. Marz, M. Küsel, K.

Abstract

The terrestrial subsurface contains nearly all of Earth’s freshwater reserves and harbours the majority of our planet’s total prokaryotic biomass. Although genetic surveys suggest these organisms rely on in situ carbon fixation, rather than the photosynthetically derived organic carbon transported from surface environments, direct measurements of carbon fixation in the subsurface are absent. Using an ultra-low level 14C-labelling technique, we estimate in situ carbon fixation rates in a carbonate aquifer. We find these rates are similar to those measured in oligotrophic marine surface waters and up to six-fold greater than those observed in the lower euphotic zone. Our empirical carbon fixation rates agree with nitrification rate data. Metagenomic analyses reveal abundant putative chemolithoautotrophic members of an uncharacterized order of Nitrospiria that may be behind the carbon fixation. On the basis of our determined carbon fixation rates, we conservatively extrapolate global primary production in carbonate groundwaters (10% of global reserves) to be 0.11 Pg carbon per year. These rates fall within the range found for oligotrophic marine surface waters, indicating a substantial contribution of in situ primary production to subsurface ecosystem processes. We further suggest that, just as phototrophs are for marine biogeochemical cycling, such subsurface carbon fixation is potentially foundational to subsurface trophic webs.

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