环境因素对红壤模拟泥浆体系中紫外光(300~400 nm)降解邻苯二甲酸二丁酯的影响

帅文娟; 方国东; 周东美; 高娟

文章摘要

帅文娟,方国东,周东美,高娟.环境因素对红壤模拟泥浆体系中紫外光(300~400 nm)降解邻苯二甲酸二丁酯的影响[J].农业环境科学学报,2019,38(2):366-373.

环境因素对红壤模拟泥浆体系中紫外光(300~400 nm)降解邻苯二甲酸二丁酯的影响

Effects of environmental factors on the degradation of di-butyl phthalate (DnBP)in a simulated red soil mud system under UV (300~400 nm)irradiation

投稿时间：2018-04-12 修订日期：2018-08-08

DOI：10.11654/jaes.2018-0483

中文关键词: 邻苯二甲酸二丁酯降解紫外光红壤草酸柠檬酸

英文关键词: di-butyl phthalate degradation UV light red soil oxalic acid citric acid

基金项目:国家重点研究发展计划项目（2017YFA0207001）；国家自然科学基金项目（41773125）；中国科学院研究仪器开发计划项目（yz201638）

作者	单位	E-mail
帅文娟	中国科学院土壤污染与修复重点实验室, 中国科学院南京土壤研究所, 南京 210008 中国科学院大学, 北京 100049
方国东	中国科学院土壤污染与修复重点实验室, 中国科学院南京土壤研究所, 南京 210008
周东美	中国科学院土壤污染与修复重点实验室, 中国科学院南京土壤研究所, 南京 210008
高娟	中国科学院土壤污染与修复重点实验室, 中国科学院南京土壤研究所, 南京 210008	juangao@issas.ac.cn

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中文摘要:

土壤pH、硝酸根离子浓度、土壤外源性Cu²⁺污染、土壤中草酸或柠檬酸浓度等环境因素可能会影响邻苯二甲酸二丁酯（DnBP）在土壤中的化学降解行为，为研究这些环境因素如何影响DnBP的降解，采集江西鹰潭红壤，加入DnBP老化30 d，在光照（300~400 nm）和暗环境下分别研究环境因素对DnBP在土壤泥浆中降解的影响。结果表明：当土壤中目标污染物DnBP浓度为100 mg·kg^-1时，在土壤pH为3.5、草酸浓度为50 mmol·L^-1的条件下，DnBP降解率为95%。草酸浓度过高或过低均不利于DnBP的降解。柠檬酸对DnBP降解的影响次于草酸。低pH的酸性环境下草酸有利于红壤中DnBP的光降解。以Cu²⁺污染为例的复合污染，无论在有或无草酸存在的条件下均对DnBP的降解无显著影响。在纯水溶液中，25 mmol·L^-1的NO₃^-有效地利用300~400 nm的紫外光降解DnBP，然而在土壤泥浆中NO₃^-的存在并不影响DnBP降解。研究表明，在表层红壤接受光照的情况下，有机污染物DnBP可以在红壤中发生光催化降解。

英文摘要:

Di-butyl phthalate (DnBP)is a widely used plasticizer with endocrine-disrupting properties and is presently widely detected in soils. Surface soil absorbs long-wavelength UV irradiation (300~400 nm)that can induce a series of reactions leading to the degradation of DnBP. Moreover, spatial and/or temporal differences in environmental factors, such as soil pH, nitrate concentration, soil exogenous Cu²⁺ pollution, and soil solution contents of oxalic acid or citric acid, can also influence the nature of DnBP in soils. To date, however, there have been few studies that have examined these effects. In this study, soil collected from Yingtan in Jiangxi Province was used to examine DnBP ester degradation both in the dark and under UV irradiation, as affected by the aforementioned different environmental factors. In soil with a solution pH of 5.5, oxalic acid concentration of 50 mmol·L^-1, and initial DnBP concentration of 100 mg·kg^-1, there was an approximate 95% degradation of DnBP. Oxalic acid concentrations higher or lower than 50 mmol·L^-1 resulted in a lower degradation ratio of DnBP. The addition of citric acid to soil was less effective than that of oxalic acid. An acidic environment in the presence of oxalic acid and irradiation with UV (300~400 nm)light was observed to be beneficial for DnBP degradation. In pure aqueous solutions containing 25 mmol·L^-1 of the inorganic anion NO₃^-, DnBP is readily decomposed under UV irradiation. However, in soil suspensions, NO₃^- had no effect on the degradation of DnBP. This study verified that organic pollutants such as DnBP can be degraded by chemical reactions occurring in the top layer of soil.

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