Bisphenol A: Quantification in Complex Matrices and Removal by Anaerobic Sludges

Justus Hardegen, Patrick Braeutigam, C. Abendroth, Thomas Wichard
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引用次数: 2

Abstract

The endocrine disruptor bisphenol A (BPA) is one of the most commonly found micropollutants in the environment. However, the biodegradation of BPA under anaerobic (methanogenic) conditions is still an understudied process in wastewater treatment systems. The current study thus addresses the need for a simple and user-friendly analytical method for the rapid and accurate quantification of BPA in complex matrices such as digested and co-digester sludges. We established a microwave-assisted extraction method, followed by derivatization and gas chromatography–mass spectrometry to quantify BPA by comparing it with a deuterated internal standard. The BPA removal capabilities of three digester sludges and three co-digester sludges were examined under mesophilic methanogenic conditions in biogas plants. The endogenous BPA concentration (dry weight) ranged from 1596 to 10,973 µg kg−1 in digested sewage sludges, and from below the limit of quantification to 9069 µg kg−1 in co-digester sludges. When BPA was added to the sludges, the removal capabilities ranged from not significant to 50% after 21 days of incubation. Biogas production was unaffected by the addition of BPA (228 µg kg−1) to the aqueous sludge. The study demonstrated that BPA could be removed under anaerobic conditions in accustomed inoculates. The findings have far-reaching implications for understanding BPA persistence and detoxification under anaerobic conditions.
双酚A:在复杂基质中的定量和厌氧污泥的去除
内分泌干扰物双酚A (BPA)是环境中最常见的微污染物之一。然而,在厌氧(产甲烷)条件下双酚a的生物降解在废水处理系统中仍然是一个未充分研究的过程。因此,目前的研究需要一种简单易用的分析方法来快速准确地定量复杂基质(如消化污泥和共消化污泥)中的BPA。我们建立了微波辅助提取双酚a的方法,然后进行衍生化和气相色谱-质谱联用,通过与氘化内标进行比较来定量双酚a。在沼气厂中温产甲烷条件下,研究了3种沼气池污泥和3种共沼气池污泥对BPA的去除能力。消化污泥的内源BPA浓度(干重)为1596 ~ 10973µg kg - 1,共消化污泥的内源BPA浓度为9069µg kg - 1。当BPA添加到污泥中,经过21天的孵育,去除能力从不显著到50%不等。在含水污泥中添加BPA(228µg kg−1)不影响沼气的产生。研究表明,在厌氧条件下,习惯的接种物可以去除BPA。这一发现对了解双酚a在厌氧条件下的持久性和解毒具有深远的意义。
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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