Review of interactions between phosphorus and arsenic in soils from four case studies

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Geochemical Transactions Pub Date : 2018-04-02 DOI:10.1186/s12932-018-0055-6
Daniel G. Strawn
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引用次数: 67

Abstract

Arsenic is a non-essential element that poses risks in many environments, including soil, groundwater, and surface water. Insights into the environmental biogeochemistry of As can be gained by comparing As and P reaction processes. Arsenic and P are chemical analogues, and it is proposed that they have similar chemical behaviors in environmental systems. However some chemical properties of As and P are distinct, such as redox reactions, causing the biogeochemical behavior of the two elements to differ. In the environment, As occurs as either As(V) or As(III) oxyanions (e.g., AsO43? or AsO33?). In contrast, P occurs predominantly as oxidation state five plus; most commonly as the orthophosphate ion (PO43?). In this paper, data from four published case studies are presented with a focus on P and As distribution and speciation in soil. The goal is show how analyzing P chemistry in soils can provide greater insights into As reaction processes in soils. The case studies discussed include: (1) soil developed from shale parent material, (2) mine-waste impacted wetland soils, (3) phosphate-amended contaminated soil, and (4) plants grown in biochar-amended, mine-contaminated soil. Data show that while P and As have competitive reactions in soils, in most natural systems they have distinct biogeochemical processes that create differing mobility and bioavailability. These processes include redox reactions and rhizosphere processes that affect As bioavailability. Results from these case studies are used as examples to illustrate how studying P and As together allows for enhanced interpretation of As biogeochemical processes in soils.

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从四个案例研究中回顾土壤中磷和砷的相互作用
砷是一种非必需元素,在许多环境中构成风险,包括土壤、地下水和地表水。通过比较砷和磷的反应过程,可以深入了解砷的环境生物地球化学。砷和磷是化学类似物,它们在环境系统中具有相似的化学行为。然而,As和P的某些化学性质不同,如氧化还原反应,导致两种元素的生物地球化学行为不同。在环境中,As以As(V)或As(III)氧离子的形式存在(如AsO43?还是AsO33 ?)。相反,P主要以5 +氧化态出现;最常见的是正磷酸盐离子(PO43?)。本文介绍了四个已发表的案例研究的数据,重点介绍了土壤中磷和砷的分布和形态。目的是展示如何分析土壤中的磷化学可以为土壤中的砷反应过程提供更深入的了解。讨论的案例包括:(1)由页岩母质发育的土壤;(2)受矿山废弃物影响的湿地土壤;(3)磷酸盐改性的污染土壤;(4)在生物炭改性的矿山污染土壤中生长的植物。数据显示,虽然磷和砷在土壤中具有竞争性反应,但在大多数自然系统中,它们具有不同的生物地球化学过程,从而产生不同的流动性和生物利用度。这些过程包括影响砷生物利用度的氧化还原反应和根际过程。这些案例研究的结果被用作例子来说明如何将磷和砷一起研究可以增强对土壤中砷生物地球化学过程的解释。
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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
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