Comparison of the bioavailability of benzo[a]pyrene (B[a]P) in a B[a]P-contaminated soil using the different addition approaches

Ye, Xinxin; Ma, Jingjing; Wei, Junling; Sun, Kai; Xiong, Qizhong

doi:10.1038/s41598-019-40813-1

Cited by 9 publications

(3 citation statements)

References 40 publications

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“…Alterations in ROS-scavenging enzymes and oxidative stress levels have also been reported. Duan et al [164] found changes in ROS-scavenging enzymes (superoxide dismutase and catalase) in E. fetida after 14 days of exposure to benzo-[a]pyrene, but not lipid peroxidation at concentrations below 500 mg kg À1 d.w. For the same species and chemical, Ye et al [168] denoted an increase in superoxide dismutase and peroxidase activities and failure to reach a new homeostasis status after 56 days at 10 mg kg À1 d.w. Glutathione S-transferases alterations were reported for phenanthrene and fluorene in E. fetida [169]. Recent OMICS have highlighted important differences in toxicity pathways elicited by PACs to soil organisms, as shown by Roelofs et al [170] for F. candida and E. crypticus after exposure to phenanthrene.…”

Section: Effect Of Polycyclic Aromatic Compounds At Sub-organism Levelmentioning

confidence: 99%

Bioaccumulation and Toxicity of Organic Chemicals in Terrestrial Invertebrates

González-Alcaraz

Malheiro

Cardoso

et al. 2020

The Handbook of Environmental Chemistry

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Section: Effect Of Polycyclic Aromatic Compounds At Sub-organism Levelmentioning

confidence: 99%

Bioaccumulation and Toxicity of Organic Chemicals in Terrestrial Invertebrates

González-Alcaraz

Malheiro

Cardoso

et al. 2020

The Handbook of Environmental Chemistry

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“…Reports also showed that the increased pH and EC in sandy soil and aging in clayey soil caused > 55 % and > 85 % of the changes in B(a)P extractability, respectively (Meng et al, 2019; Zhou et al, 2021). It has been found that the addition method (one‐time or multiple‐time addition) could affect the bioavailability of B(a)P in soils, its uptake by earthworms, as well as the enzyme activities in earthworm coelomocytes, due to the B(a)P age in soil (Ye et al, 2019). With the accumulation of B(a)P in receptors, varying degrees of damage were observed, such as the ultrastructural damage in spring barley tissues depending on concentrations (Fedorenko et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Bioavailability and toxicity variation of benzo(a)pyrene in three soil–wheat systems: Indicators of soil quality

Teng

Zhou

2021

Land Degrad Dev

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Benzo(a)pyrene [B(a)P] as a representative polycyclic aromatic hydrocarbons (PAHs) is of worldwide i interest and widely studied in various fields. However, biological and biochemical actions of B(a)P in soil–wheat systems are still rarely reported. In view of the fact that the contents of B[a]P as a ubiquitous soil pollutant in the environment varies greatly, in our study at the laboratory‐scale we explored control factors and aimed to increase basic knowledge of its variations and effects on soil–wheat systems. We studied this for different soil types (red, black, and brown) and for soils newly artificially contaminated (at rates of 0.1, 1, and 10 mg kg−1), to provide some references for complicated 'real' cases. The bioavailability (extractability and bioaccumulation) and basic biological toxicity were tested. Results showed that B(a)P concentrations in soil–wheat (Tritticum aestivum L.) systems extracted by HPCD were insignificantly (p > 0.05) higher than Tenax‐TA, and varied with soil types and spiked concentrations. Also, the root and shoot length were mostly inhibited from 0.88% to 26.35%, and 5.46% to 54.85%, respectively, by B(a)P in different soil types and increased with its increasing concentration. Comparatively, higher bioconcentration factor and translocation factor values were observed under lower group in red soil–wheat systems, and under higher added groups in black and brown soil–wheat systems. Moreover, inhibitive effects posed by B(a)P were mainly targeted at wheat shoots in these soils. This study provided a knowledge of B(a)P in ecosystems with different soil types and specific plant species, further to serve for soil environmental protection with many variations.

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“…Therefore, it is the bioavailable fraction, rather than the total contaminant in soils, that is critical for defining exposure, uptake and the consequent risk to the environmental receptors, and could be used to assess the effectiveness or feasibility of bioremediation technologies (Li et al, 2013). Many researchers have observed an 'ageing effect' of hydrophobic organic contaminants (HOCs), such as PAHs in soil (Duan et al, 2015;Meng and Chi, 2017;Ye et al, 2019). Such process are often determined by increased sorption or decreased desorption which are controlled by several factors including soil properties (e.g.…”

Section: Introductionmentioning

confidence: 99%

Influence of pH, electrical conductivity and ageing on the extractability of benzo[a]pyrene in two contrasting soils

Meng

Yang

Duan

et al. 2019

Science of The Total Environment

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Higher soil pH and electrical conductivity (EC) were suspected to result in higher extractability and bioavailability of benzo[a]pyrene (B[a]P) in soils. In this study, we investigated the influence of pH, EC and ageing on the extractability of B[a]P in two contracting soils (varied largely in soil texture, clay mineralogy and organic carbon content) over 4 months. Dilute sodium hydroxide (0.2 mol L-1) and sodium chloride (0.1 mol L-1) solutions were used to adjust soil pH and EC either separately or simultaneously. Extractability of B[a]P in these soils was monitored using a mild solvent extraction using butanol (BuOH, end-over-end shake over 24 hours), and an exhaustive mix-solvent extraction using dichloromethane/acetone (DCM/Ace, v:v = 1:1) facilitated by sonication and a subsequent NaOH saponification method following the DCM/Ace extraction. Results showed that increased pH and/or EC significantly increased the B[a]P extractability in the sandy soil (GIA). Variance analysis of contribution of pH and/or EC modification and ageing time on changes in B[a]P extractability indicated that in GIA more than 55% and over 25% of the changes in B[a]P extractability was attributed to increased pH&EC and pH only respectively. While ageing resulted in more than 85% of the change in B[a]P extractability in the clayey soil (BDA), following by increased pH&EC (contribution less than 15%). Large amount of non-extractable residue (NER) were formed over the ageing period, up to 94.6% and 78.8% in GIA/BDA and its modified soils, respectively. Significant correlations were observed between B[a]P BuOH extractability and the exhaustive sequential extraction using DCM/Ace followed by NaOH saponification for all soils (p < 0.001). With slopes of the correlations close to 1, our results indicated that the simple mild solvent BuOH 3 extraction was equivalent to the complex sequential DCM/Ace and NaOH saponification extraction in these soils.

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Comparison of the bioavailability of benzo[a]pyrene (B[a]P) in a B[a]P-contaminated soil using the different addition approaches

Cited by 9 publications

References 40 publications

Bioaccumulation and Toxicity of Organic Chemicals in Terrestrial Invertebrates

Bioaccumulation and Toxicity of Organic Chemicals in Terrestrial Invertebrates

Bioavailability and toxicity variation of benzo(a)pyrene in three soil–wheat systems: Indicators of soil quality

Influence of pH, electrical conductivity and ageing on the extractability of benzo[a]pyrene in two contrasting soils

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