The mangrove reactor: Fast clay transformation and potassium sink

The mangrove reactor: Fast clay transformation and potassium sink

Most known clay mineral reactions are slow. Clay formation by weathering is recognized as faster (hundreds of thousands to few million years) than clay reverse weathering (few to tens My), even if the latter takes place in deep diagenetic conditions at temperatures above 100°C. Identifying hot spots...

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Bibliographic Details
Published in:Applied clay science Vol. 140; pp. 50 - 58
Main Authors: Cuadros, Javier, Andrade, Gabriel, Ferreira, Tiago Osório, de Moya Partiti, Carmen Silvia, Cohen, Renato, Vidal-Torrado, Pablo
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2017
Subjects:
Illite
Kaolinite
Kinetics of clay transformation
Mangrove forests
Potassium budget
Kinetics of clay transformation
Mangrove forests
Kaolinite
Illite
Potassium budget
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Summary:Most known clay mineral reactions are slow. Clay formation by weathering is recognized as faster (hundreds of thousands to few million years) than clay reverse weathering (few to tens My), even if the latter takes place in deep diagenetic conditions at temperatures above 100°C. Identifying hot spots of fast clay retrograde reactions acting as effective potassium sinks would contribute to eliminating the present imbalance of the potassium budget towards release into the oceans. We have identified and modeled the reaction kaolinite+Fe+cations→Fe-illite occurring in Brazilian mangroves, which takes place through kaolinite-smectite and illite-smectite intermediates. The reaction is very fast, transforming 72–154gm−2y−1 of kaolinite into Fe-illite, or 16–38% of the newly sedimented kaolinite each year. This kaolinite-to-illite transformation is 10s–100s times faster than kaolinite formation by weathering. Extrapolation of the calculated potassium consumption to mangrove forests worldwide produces 0.6–3×1012gy−1, or 1–6% of the yearly potassium riverine input into the oceans. [Display omitted] •In Brazilian mangrove forests kaolinite is transformed into Fe-illite.•The reaction is very fast: 72–154gm−2y−1 of kaolinite are converted to illite.•Worldwide, the reaction would consume 1–6% of potassium input into the oceans.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2017.01.022