1. Millennial scale persistence of organic carbon bound to iron in Arctic marine sediments
- Author
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Katharine R. Hendry, Sonia Papadaki, Mark Zindorf, Ben J. Fisher, Johan C. Faust, Allyson Tessin, Katherine A. Doyle, and Christian März
- Subjects
010504 meteorology & atmospheric sciences ,Science ,General Physics and Astronomy ,chemistry.chemical_element ,010501 environmental sciences ,Carbon sequestration ,01 natural sciences ,Article ,General Biochemistry, Genetics and Molecular Biology ,Carbon cycle ,Barents Sea ,carbon cycle ,Arctic Ocean ,14. Life underwater ,0105 earth and related environmental sciences ,Total organic carbon ,Multidisciplinary ,redox boundary ,fungi ,food and beverages ,Sediment ,Carbon sink ,geochemical sediment composition ,General Chemistry ,Authigenic ,Geochemistry ,Arctic ,chemistry ,13. Climate action ,Environmental chemistry ,Environmental science ,reactive iron and manganese ,Carbon ,pore water chemistry - Abstract
Burial of organic material in marine sediments represents a dominant natural mechanism of long-term carbon sequestration globally, but critical aspects of this carbon sink remain unresolved. Investigation of surface sediments led to the proposition that on average 10-20% of sedimentary organic carbon is stabilised and physically protected against microbial degradation through binding to reactive metal (e.g. iron and manganese) oxides. Here we examine the long-term efficiency of this rusty carbon sink by analysing the chemical composition of sediments and pore waters from four locations in the Barents Sea. Our findings show that the carbon-iron coupling persists below the uppermost, oxygenated sediment layer over thousands of years. We further propose that authigenic coprecipitation is not the dominant factor of the carbon-iron bounding in these Arctic shelf sediments and that a substantial fraction of the organic carbon is already bound to reactive iron prior deposition on the seafloor., Burial of organic material in marine sediments can sequester massive amounts of carbon, but the dynamics of this carbon sink are poorly understood. Here the authors investigate the so-called rusty carbon sink in Arctic shelf sediments, finding that organic carbon-iron associations are stable for 1000 s of years.
- Published
- 2021
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