Beyond Inorganic C: Soil Organic C as a Key Pathway for Carbon Sequestration in Enhanced Weathering

风化作用 成土作用 硅酸盐矿物 环境化学 碳酸盐 硅酸盐 有机质 浸出(土壤学) 溶解有机碳 化学 修正案 土壤有机质 硅酸铝 土壤科学 地质学 地球化学 土壤水分 催化作用 法学 有机化学 生物化学 政治学
作者
Laura Steinwidder,Lucilla Boito,Patrick Frings,Harun Niron,Jet Rijnders,Anthony de Schutter,Arthur Vienne,Sara Vicca
出处
期刊:Global Change Biology [Wiley]
卷期号:31 (7): e70340-e70340 被引量:2
标识
DOI:10.1111/gcb.70340
摘要

ABSTRACT Enhanced weathering, a promising CO 2 removal technique, captures CO 2 via two inorganic pathways: pedogenic carbonate formation and leaching of dissolved weathering products. Here, we look beyond those two pathways, identifying other CO 2 sinks and sources relevant for enhanced weathering. Although processes such as clay formation or organic matter decomposition could reduce the efficiency of enhanced weathering, organic matter stabilization could contribute to C storage. In a 15‐month mesocosm experiment including two different types of silicates (50 t/ha basalt and 5 t/ha steel slag), the realized inorganic CO 2 removal remained negligible (below 0.12 t CO 2 /ha). The majority of released base cations was sorbed to the exchangeable complex or bound in secondary minerals such as (hydr)oxides and/or aluminosilicate clays, thus, not requiring the dissolution of CO 2 for charge balance. Only a negligible minority of base cations was found in pedogenic carbonates or leachates. In comparison to the relatively low inorganic C fluxes, organic C fluxes were several orders of magnitude larger. Increases in soil CO 2 efflux due to SOM decomposition were approximately 25 times higher than the realized inorganic CO 2 removal of enhanced weathering (basalt +0.9 and slag +1.1 t CO 2 /ha released over 15 months). Yet, plant C inputs likely increased in silicate‐amended treatments, offsetting organic C losses. Although soil organic C stocks remained unaffected by silicate amendment, the distribution of C shifted towards more stable pools. Soil organic C was stabilized via the formation of aggregates and mineral association. Given the increased organic C inputs and the transfer of organic C to more stable soil sinks, long‐term studies will be essential to quantify changes in soil organic C stocks and therefore in CO 2 removal.
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