The degradation of a nonylphenol isomer in water and soil of typical sewage irrigation area in China

IF 1.7 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Water and Environment Journal Pub Date : 2024-01-10 DOI:10.1111/wej.12910
Min Liu, Liangyuan Zhao, Wei Deng, Caixiang Zhang, Xiaoping Liao, Huawei Huang, Cheng Han, Yuan Hu, Mengmeng Wu
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Abstract

Nonylphenols (NPs), one of the known endocrine disrupting organic pollutants, had received full attention for their estrogenic potency and ubiquitous distribution in the environment. Due to its chemical properties and compositions of technical nonylphenols (tNPs), which was persistent and soil environments for a long time and affect the ecosystem vigorously, degradation behaviour of a nonylphenol isomer (NP38) and the para-substituded nonylphenols (4-NPs) in water and soil was compared in this study. The results showed that the 4-NPs and NP38 could be degraded under the mercury lamp in ultrapure water, 90% of 4-NPs and NP38 were photodegradated in 2 h, but the removal rate of the 4-NPs was slightly faster than the NP38. The NP38 was almost completely decay under the UV in 120 min. The active species (NO3 and Fe3+) were benefit for the photogradation of NP38 and presented higher efficiency under the higher concentration. The biodegradable curves of the 4-NPs and NP38 in the SS (The soil from sewage irrigation area) were similar, 84% of the NP38 was removed after 20 days later in SS, the 62.25% of the NP38 was remained after 60 days later in CS (the soil was from the groundwater irrigation area), but the removal rate of the NP38 was nearly two times to the 4-NPs in the CS, and the structure of the nonylphenol isomers with α-quaternary had influenced on its degradation in soils. The study was helpful for better understanding the migration and transformation behaviour of NPs and provided scientific basis for accurate assessment of environmental risk of NPs from the sewage irrigation area.
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一种壬基酚异构体在中国典型污水灌区水体和土壤中的降解情况
壬基酚(NPs)是已知的干扰内分泌的有机污染物之一,因其雌激素效力和在环境中无处不在的分布而受到广泛关注。由于工业壬基酚(tNPs)的化学性质和成分在土壤环境中长期持久存在并对生态系统产生强烈影响,本研究比较了一种壬基酚异构体(NP38)和对位取代的壬基酚(4-NPs)在水和土壤中的降解行为。结果表明,4-NPs 和 NP38 可在超纯水中的汞灯下降解,90% 的 4-NPs 和 NP38 在 2 小时内被光降解,但 4-NPs 的去除速度略快于 NP38。NP38 在紫外线下 120 分钟内几乎完全降解。活性物种(NO3- 和 Fe3+)有利于 NP38 的光降解,并且在浓度较高时效率更高。4-NPs 和 NP38 在 SS(来自污水灌溉区的土壤)中的生物降解曲线相似,在 SS 中 20 天后 84% 的 NP38 被清除,而在 CS(来自地下水灌溉区的土壤)中 60 天后 62.25% 的 NP38 仍被保留,但在 CS 中 NP38 的清除率几乎是 4-NPs 的两倍,壬基酚异构体的α-季化合物结构对其在土壤中的降解有影响。该研究有助于更好地了解壬基酚的迁移和转化行为,为准确评估污水灌区壬基酚的环境风险提供了科学依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Water and Environment Journal
Water and Environment Journal 环境科学-湖沼学
CiteScore
4.80
自引率
0.00%
发文量
67
审稿时长
18-36 weeks
期刊介绍: Water and Environment Journal is an internationally recognised peer reviewed Journal for the dissemination of innovations and solutions focussed on enhancing water management best practice. Water and Environment Journal is available to over 12,000 institutions with a further 7,000 copies physically distributed to the Chartered Institution of Water and Environmental Management (CIWEM) membership, comprised of environment sector professionals based across the value chain (utilities, consultancy, technology suppliers, regulators, government and NGOs). As such, the journal provides a conduit between academics and practitioners. We therefore particularly encourage contributions focussed at the interface between academia and industry, which deliver industrially impactful applied research underpinned by scientific evidence. We are keen to attract papers on a broad range of subjects including: -Water and wastewater treatment for agricultural, municipal and industrial applications -Sludge treatment including processing, storage and management -Water recycling -Urban and stormwater management -Integrated water management strategies -Water infrastructure and distribution -Climate change mitigation including management of impacts on agriculture, urban areas and infrastructure
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