Novel Chemical Routes for Carbon Dioxide and Methane Production from Lignin Photodegradation: The Role of Environmental Free Radicals

Sunlight irradiation significantly mediates plant litter’s carbon dynamics and volatile carbon release in semi-arid and arid ecosystems. In this process, carbon loss is controlled by lignin, but the mechanisms of production of CO2 and CH4 during lignin photolysis are ambiguous. In this study, the ph...

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Veröffentlicht in:	Environmental science & technology 2024-09, Vol.58 (36), p.16055-16065
Hauptverfasser:	Deng, Yongxi, Zhu, Kecheng, Jiang, Wenjun, Liu, Yixuan, Xie, Linyang, Liu, Fuhao, Yang, Kangjie, Jiang, Yuanren, Jia, Hanzhong
Format:	Artikel
Sprache:	eng
Schlagworte:	Aridity Biogeochemical Cycling carbon Carbon dioxide Carbon Dioxide - chemistry Carboxylic acids coniferyl alcohol Decarboxylation Demethylation Electron transfer environmental science Free radicals Free Radicals - chemistry Irradiation Lignin Lignin - chemistry Lignocellulose Litter Methane methane production Oxidation Photodegradation Photolysis plant litter Quinones Ring opening solar radiation superoxide anion
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container_issue	36
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container_title	Environmental science & technology
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creator	Deng, Yongxi Zhu, Kecheng Jiang, Wenjun Liu, Yixuan Xie, Linyang Liu, Fuhao Yang, Kangjie Jiang, Yuanren Jia, Hanzhong
description	Sunlight irradiation significantly mediates plant litter’s carbon dynamics and volatile carbon release in semi-arid and arid ecosystems. In this process, carbon loss is controlled by lignin, but the mechanisms of production of CO2 and CH4 during lignin photolysis are ambiguous. In this study, the photomineralization of plant litter and the lignocellulosic component collectively indicate that lignin is a major source of CO2 and CH4 emissions. Characterization and free radical analysis reveal that the production of CO2 is due to the oxidation and ring-opening reaction of the coniferyl alcohol unit, with the subsequent decarboxylation of carboxylic acid as an oxidation product. This reaction involves o-quinone formation by the reactions between O2, superoxide radical (O2 ·–), and persistent free radicals (PFRs)-bearing lignin. Of this, O2 ·– contributes to 43.2% of the photogenerated CO2, as a new pathway, derived from the electron transfer from PFRs to O2. Interestingly, photoinduced demethylation of the dimethoxybenzene-type compounds as the photolysis products of lignin results in a never-before-reported CH4 formation chemical route independent of that of O2. This mechanistic insight into the role of lignin in volatile carbon production from the irradiative plant litter will contribute to a deeper understanding of carbon balance in water-limited ecosystems.
doi_str_mv	10.1021/acs.est.4c03414
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In this process, carbon loss is controlled by lignin, but the mechanisms of production of CO2 and CH4 during lignin photolysis are ambiguous. In this study, the photomineralization of plant litter and the lignocellulosic component collectively indicate that lignin is a major source of CO2 and CH4 emissions. Characterization and free radical analysis reveal that the production of CO2 is due to the oxidation and ring-opening reaction of the coniferyl alcohol unit, with the subsequent decarboxylation of carboxylic acid as an oxidation product. This reaction involves o-quinone formation by the reactions between O2, superoxide radical (O2 ·–), and persistent free radicals (PFRs)-bearing lignin. Of this, O2 ·– contributes to 43.2% of the photogenerated CO2, as a new pathway, derived from the electron transfer from PFRs to O2. Interestingly, photoinduced demethylation of the dimethoxybenzene-type compounds as the photolysis products of lignin results in a never-before-reported CH4 formation chemical route independent of that of O2. 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Sci. Technol</addtitle><description>Sunlight irradiation significantly mediates plant litter’s carbon dynamics and volatile carbon release in semi-arid and arid ecosystems. In this process, carbon loss is controlled by lignin, but the mechanisms of production of CO2 and CH4 during lignin photolysis are ambiguous. In this study, the photomineralization of plant litter and the lignocellulosic component collectively indicate that lignin is a major source of CO2 and CH4 emissions. Characterization and free radical analysis reveal that the production of CO2 is due to the oxidation and ring-opening reaction of the coniferyl alcohol unit, with the subsequent decarboxylation of carboxylic acid as an oxidation product. This reaction involves o-quinone formation by the reactions between O2, superoxide radical (O2 ·–), and persistent free radicals (PFRs)-bearing lignin. 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subjects	Aridity Biogeochemical Cycling carbon Carbon dioxide Carbon Dioxide - chemistry Carboxylic acids coniferyl alcohol Decarboxylation Demethylation Electron transfer environmental science Free radicals Free Radicals - chemistry Irradiation Lignin Lignin - chemistry Lignocellulose Litter Methane methane production Oxidation Photodegradation Photolysis plant litter Quinones Ring opening solar radiation superoxide anion
title	Novel Chemical Routes for Carbon Dioxide and Methane Production from Lignin Photodegradation: The Role of Environmental Free Radicals
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