农业系统中阴离子类金属和阳离子金属的同时固定策略:综述。
Simultaneous immobilization strategy of anionic metalloids and cationic metals in agricultural systems: A review.
机构信息
Department of Science and Environmental Studies, The Education University of Hong Kong, Tai Po, Hong Kong Special Administrative Region, 999077, China; Department of Soil Science, Sylhet Agricultural University, Sylhet, 3100, Bangladesh.
Department of Soil Science, Sylhet Agricultural University, Sylhet, 3100, Bangladesh.
出版信息
Chemosphere. 2024 Sep;364:143106. doi: 10.1016/j.chemosphere.2024.143106. Epub 2024 Aug 15.
Concurrent heavy metals remediation in natural environments poses significant challenges due to factors like metal speciation and interactions with soil moisture. This review focuses on strategies for immobilizing both anionic and cationic metals simultaneously in soil-crop systems. Key approaches include water management, biochar utilization, stabilizing agents, nanotechnology, fertilization, and bioremediation. Sprinkler or intermittent irrigation combined with soil amendments/biochar effectively immobilizes As/Cd/Pb simultaneously. This immobilization occurs through continuous adsorption-desorption, oxidation-reduction, and precipitation mechanisms influenced by soil pH, redox reactions, and Fe-oxides. Biochar from sources like wine lees, sewage sludge, spent coffee, and Fe-nanoparticles can immobilize As/Cd/Pb/Cr/Co/Cu/Zn together via precipitation. In addition, biochar from rice, wheat, corn straw, rice husk, sawdust, and wood chips, modified with chemicals or nanoparticles, simultaneously immobilizes As and Cd, containing higher FeO, Fe-oxide, and OH groups. Ligand exchange immobilizes As, while ion exchange immobilizes Cd. Furthermore, combining biochar especially with iron, hydroxyapatite, magnetite, goethite, silicon, graphene, alginate, compost, and microbes-can achieve simultaneous immobilization. Other effective amendments are selenium fertilizer, Ge-nanocomposites, Fe-Si materials, ash, hormone, and sterilization. Notably, combining nano-biochar with microbes and/or fertilizers with Fe-containing higher adsorption sites, metal-binding cores, and maintaining a neutral pH could stimulate simultaneous immobilization. The amendments have a positive impact on soil physio-chemical improvement and crop development. Crops enhance production of growth metabolites, hormones, and xylem tissue thickening, forming a protective barrier by root Fe-plaque containing higher Fe-oxide, restricting upward metal movement. Therefore, a holistic immobilization mechanism reduces plant oxidative damage, improves soil and crop quality, and reduces food contamination.
同时修复自然环境中的重金属面临着巨大的挑战,这是由于金属形态和与土壤水分相互作用等因素所致。本综述重点介绍了在土壤-作物系统中同时固定阴离子和阳离子金属的策略。关键方法包括水管理、生物炭利用、稳定剂、纳米技术、施肥和生物修复。喷灌或间歇性灌溉结合土壤改良剂/生物炭可有效地同时固定 As/Cd/Pb。这种固定化作用是通过连续的吸附-解吸、氧化-还原和沉淀机制实现的,这些机制受到土壤 pH 值、氧化还原反应和 Fe 氧化物的影响。来自酒渣、污水污泥、废咖啡和 Fe 纳米粒子等来源的生物炭可以通过沉淀同时固定 As/Cd/Pb/Cr/Co/Cu/Zn。此外,用化学物质或纳米粒子修饰的来自水稻、小麦、玉米秸秆、稻壳、木屑和木片的生物炭同时固定 As 和 Cd,含有较高的 FeO、Fe 氧化物和 OH 基团。配体交换固定 As,而离子交换固定 Cd。此外,将生物炭特别是与铁、羟基磷灰石、磁铁矿、针铁矿、硅、石墨烯、藻酸盐、堆肥和微生物结合使用,可以实现同时固定。其他有效的改良剂是硒肥料、Ge 纳米复合材料、Fe-Si 材料、灰分、激素和灭菌。值得注意的是,将纳米生物炭与微生物和/或含有更高吸附位点、金属结合核心的 Fe 肥料结合使用,并保持中性 pH 值,可以刺激同时固定。这些改良剂对土壤理化性质的改善和作物的生长发育有积极的影响。作物通过增加生长代谢物、激素的产生和木质部组织的增厚来增强其生物量,通过根铁斑的形成形成一个保护性屏障,根铁斑含有更高的 Fe 氧化物,限制金属向上移动。因此,整体固定化机制可减少植物的氧化损伤,提高土壤和作物的质量,并降低食物污染。
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