Nanjing Institute of Environmental Science, Ministry of Ecology and Environment of the People's Republic of China, Nanjing 210042, PR China.
Nanjing Institute of Environmental Science, Ministry of Ecology and Environment of the People's Republic of China, Nanjing 210042, PR China; Co-Innovation Center for the Sustainable Forestry in Southern China, College of Biology and the Environment, Nanjing Forestry University, Nanjing 210037, PR China; School of Environmental Science and Engineering, Tongji University, Shanghai 200092, PR China.
Sci Total Environ. 2024 Dec 10;955:177209. doi: 10.1016/j.scitotenv.2024.177209. Epub 2024 Nov 2.
Biochar and hydrochar have garnered widespread attention owing to their excellent performance in environmental remediation, carbon sequestration, and resource utilization from biowaste. Studies on the release potential of dissolved organic matter (DOM) have been limited, and the distinction between biochar and hydrochar remains unclear. In this study, pine sawdust was utilized as a model precursor with the aim of comparing the release quantity, components, and properties of DOM from biochar (BDOM) and hydrochar (HDOM) under various simulated conditions. The amount of DOM released by hydrochar (38.20-190.49 g/kg) was significantly greater than that released by biochar (0.57-11.96 g/kg), and more DOM was released at higher temperatures and pH values. BDOM consists of three categories of components, namely, humic-like, protein-like, and benzoic acid-like and tyrosine-like substances compounds, whereas HDOM consists of four categories of components, namely, two categories of humic-like compounds and two categories of protein-like compounds. By using ESI-FT-ICR-MS technology, 8586 compounds in BDOM and 6428 compounds in HDOM were identified. A total of 4665 unique compounds were found in BDOM, 1416 unique compounds were found in HDOM under alkaline release conditions, and HDOM contained more unique compounds than those found in other environments. CRAM/lignin-like compounds made up the majority of the released DOM and reached 31.01-65.35 % for BDOM and 54.79-73.05 % for HDOM. These findings revealed significant differences in the release potential of DOM from biochar and hydrochar, and further behavior research is needed to guide future applications of char materials in the environment and agriculture fields.
生物炭和水热炭由于在环境修复、碳固存和生物废物资源利用方面的优异性能而受到广泛关注。关于溶解有机物质(DOM)释放潜力的研究还很有限,生物炭和水热炭之间的区别也不清楚。在这项研究中,以松木屑为模型前体,旨在比较在各种模拟条件下生物炭(BDOM)和水热炭(HDOM)释放 DOM 的数量、组成和性质。水热炭释放的 DOM 量(38.20-190.49 g/kg)明显大于生物炭(0.57-11.96 g/kg),且在较高温度和 pH 值下释放更多的 DOM。BDOM 由三类组成部分组成,分别为类腐殖质、类蛋白和类苯甲酸和酪氨酸物质化合物,而 HDOM 由四类组成部分组成,分别为两类类腐殖质和两类类蛋白化合物。使用 ESI-FT-ICR-MS 技术,鉴定了 BDOM 中的 8586 种化合物和 HDOM 中的 6428 种化合物。在碱性释放条件下,BDOM 中发现了 4665 种独特的化合物,HDOM 中发现了 1416 种独特的化合物,HDOM 中包含的独特化合物多于其他环境中发现的化合物。CRAM/木质素样化合物构成了释放 DOM 的主要部分,BDOM 为 31.01-65.35%,HDOM 为 54.79-73.05%。这些发现表明生物炭和水热炭释放 DOM 的潜力存在显著差异,需要进一步的行为研究来指导未来在环境和农业领域应用炭材料。
