期刊
ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY
卷 239, 期 -, 页码 -出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.ecoenv.2022.113687
关键词
Dissolved black carbon; Root exudates; Physicochemical property; Colloidal stability; Free radicals; Phytotoxicity
资金
- National Natural Science Foundation of China [41977278, 41573127]
- Jiangsu Agricultural Science and Technology Innovation Project [CX (20) 3080]
This study compared the release, surface properties, colloidal stability, and oxidative stress of dissolved black carbon (DBC) in the presence and absence of rice root exudates. The results showed that the introduction of root exudates enhanced the release of DBC, modified its surface properties, and reduced its oxidative stress to rice seedlings.
In this study, the release of dissolved black carbon (DBC) from bulk-BC, its surface properties, colloidal stability, and oxidative stress to rice seedlings in the presence and absence of rice root exudates were compared. The bulkBCs were prepared at 550 C and derived from wood chips and pig manure, respectively. The release of DBC from bulk-BC was significantly enhanced (20.19-23.63%) by the introduction of root exudates, where low molecular weight organic acids played a dominating role in the dissociation of DBC from carbon skeleton. The surface properties of DBC were greatly modified by root exudates including decreases in the surface area (18.13%) and mineral contents (43.90-69.57%). The O-containing groups and graphitization were also enhanced by 11.46% and 18.65%, respectively. Meanwhile, the presence of root exudates not only reduced the colloidal stability of DBC but also lowered the intensity of free radicals (19.44-22.22%) in DBC. Consequently, the oxidative stress of DBC to rice seedlings was significantly (p < 0.05) alleviated, evidenced by reduced antioxidative enzyme activities (5.67-29.25%) and soluble protein content (15.75-46.79%) in rice plants. These results indicate that the interaction between DBC and root exudates could remarkably modify the surface properties and reactivity of DBC, which has profound implications for understanding the behavior and functions of DBC in the environment.
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