土壤铁矿物的生物-非生物转化过程及其界面重金属反应机制的研究进展
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X142

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国家自然科学基金项目(41701305)和广东省地方创新科研团队珠江人才计划项目(2017BT01Z176)资助


The Abiotic and Biotic Transformation Processes of Soil Iron-bearing Minerals and Its Interfacial Reaction Mechanisms of Heavy Metals: A Review
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Supported by the National Natural Science Foundation of China (No. 41701305) and the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program of China (No. 2017BT01Z176)

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    摘要:

    铁矿物作为土壤的重要组成成分,一般可通过吸附、络合和共沉淀等方式影响重金属的生物有效性和毒性。此外,土壤中有机物的存在会影响铁矿物的转化,导致转化产物的结构和表面特性发生改变,进一步影响重金属的环境行为。本文从铁矿物、有机质和重金属等要素入手,综述了反应pH、温度、亚铁和微生物等因素影响下土壤铁矿物非生物和生物转化过程、土壤有机物对铁矿物转化过程的影响机制、土壤铁矿物界面重金属反应机制以及土壤铁矿物-有机质相互作用下的重金属反应机制。最后,对今后在复杂的自然环境中深入揭示铁矿物转化机制、原位观测重金属在矿物-水界面的微观反应机制以及预测和评估重金属的归趋等有关方向进行了展望。

    Abstract:

    Iron (Fe) minerals are widely distributed in soil and are an important component of soils, which play an important role in regulating soil health, pollutant behavior, and element biogeochemical cycles. These minerals are of great importance since they can influence many key chemical processes. For instance, they can affect the bioavailability and toxicity of heavy metals via a series of physical and chemical processes, such as physical encapsulation, adsorption, complexation, and co-precipitation. Additionally, soil organic substances can affect the transformation of iron minerals and lead to changes in the structure and surface properties of the products. Besides, the resultant products of such interactions have been reported to show a varied affinity for heavy metals and demonstrate contrasting effects on the environmental behaviors of heavy metals. In this review, we considered the following three points:(i) the effect of reaction pH, reaction temperature, and the added ferrous iron activity and concentrations on the abiotic transformation rates, degree, and pathways; (ii) the influence of soil root exudates such as oxalate acid, citric acid, and phenols on the accumulation, reduction, nucleation, dissolution and coprecipitation of Fe oxides; and lastly (iii) the surface complexation, and redox reactions of heavy metals at iron minerals-water interface. Here, the influence of iron mineral transformation on (a) the distribution of heavy metals, (b) the reaction process and molecular mechanism of heavy metals at the interface of iron mineral-organic matter, and (c) the use of kinetic models to evaluate and predict the environmental behavior of heavy metals is given in detail. It was observed that the ferrous oxidation is mediated by anaerobic photoautotrophic ferric oxidizing bacteria, and the bacteria affect the iron oxidation process through nitrate-reducing ferrous oxidation and biomineralization. Also, iron-reducing bacteria influence the iron reduction process primarily through chelating reagents, redox-active electron shuttling substances, and the c-type cytochrome of the outer membrane. Additionally, soil organic matters (e.g., fulvic acids and humic acids) can affect the aggregation and stability of soil aggregates. They can interact with iron minerals packaged in soil aggregates by electrostatic attraction, coordination exchange, van der Waals force, hydrophobic interaction, and hydrogen bonding, thereby affecting the biotic and abiotic transformation process of iron minerals. Nevertheless, this study can only serve as a reference for detail understanding of iron mineral-organic matter-heavy metal dynamic interaction mechanism at the microscale and the interaction molecular mechanisms of heavy metal at the soil multi-component interface. We suggest that future researchers should provide (i) an in-depth analysis revealing the molecular mechanism of the soil heavy metals environmental behavior under the dynamic interaction of iron minerals, soil organic matter and microorganisms, (ii) a clear picture of the soil interfacial reaction processes and mechanism at the atomic and molecular level, and (iii) a path for developing an in-situ dynamic monitoring method and technology for soil-water interface reaction process in the microscale, simulating the complex biogeochemical reactions, and predicting and assessing the trend of heavy metals in the complex natural environment by coupled kinetics models.

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胡世文,刘同旭,李芳柏,石振清.土壤铁矿物的生物-非生物转化过程及其界面重金属反应机制的研究进展[J].土壤学报,2022,59(1):54-65. DOI:10.11766/trxb202010300268 HU Shiwen, LIU Tongxu, LI Fangbai, SHI Zhenqing. The Abiotic and Biotic Transformation Processes of Soil Iron-bearing Minerals and Its Interfacial Reaction Mechanisms of Heavy Metals: A Review[J]. Acta Pedologica Sinica,2022,59(1):54-65.

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  • 收稿日期:2020-10-30
  • 最后修改日期:2021-01-16
  • 录用日期:2021-03-12
  • 在线发布日期: 2021-03-19
  • 出版日期: 2022-01-11