基于静态模型的五种苯系物在海水和厚壳贻贝中的消除规律

doi:10.14088/j.cnki.issn0439-8114.2023.06.006

湖北农业科学 ›› 2023, Vol. 62 ›› Issue (6): 29-32.doi: 10.14088/j.cnki.issn0439-8114.2023.06.006

基于静态模型的五种苯系物在海水和厚壳贻贝中的消除规律

宋立玲¹, 周旭², 廖思扬², 於佩佩¹, 胡芬静¹, 周秀锦¹

1.舟山海关综合技术服务中心,浙江舟山 316000;
2.杭州海关,杭州 310007

收稿日期:2022-03-31 出版日期:2023-06-25 发布日期:2023-07-18
通讯作者: 周秀锦（1974-）,女,河南商水人,高级工程师,主要从事水产质量控制研究,（电话）0580-8129312（电子信箱）68261222@qq.com。
作者简介:宋立玲（1987-）,女,山东潍坊人,工程师,主要从事水产质量控制研究,（电话）15957055963（电子信箱）995347823@qq.com。
基金资助:
浙江省基础公益科技项目（LGN19C190002）; 舟山市公益科技项目（2019C31049）

Elimination patterns of five benzene derivatives in seawater and Mytilus coruscus based on static models

SONG Li-ling¹, ZHOU Xu², LIAO Si-yang², YU Pei-pei¹, HU Fen-jing¹, ZHOU Xiu-jin¹

1. Zhoushan Customs Comprehensive Technical Service Center, Zhoushan 316000, Zhejiang,China;
2. Hangzhou Customs, Hangzhou 310007,China

Received:2022-03-31 Online:2023-06-25 Published:2023-07-18

摘要/Abstract

摘要： 对静态模型中的苯（BZ）、甲苯（TU）、对二甲苯（PX）、邻二甲苯（MX）和间二甲苯（OX）5种苯系物在海水和厚壳贻贝（Mytilus coruscus）中的消除规律进行研究,在（20±0.5）℃环境温度下,以海水和厚壳贻贝为研究对象,分别添加一定浓度的5种苯系物,用顶空进样-气相色谱氢火焰离子化检测器法（HS-GC-FID）分析不同时间点的5种苯系物在海水和厚壳贻贝中的残留浓度。结果表明,海水和厚壳贻贝中苯系物各组分浓度随时间变化规律基本相同,海水中5种苯系物的消除速率由大到小依次为MX、PX、TU、BZ、OX,厚壳贻贝中5种苯系物的消除速率由大到小依次为TU、BZ、MX、OX、PX,厚壳贻贝与海水的消除速率不同,其原因可能是厚壳贻贝富含脂肪、蛋白质等复杂基质,苯系物与厚壳贻贝基质的结合程度较强。

关键词: HS-GC-FID, 苯系物, 海水, 厚壳贻贝（Mytilus coruscus）

Abstract: The elimination laws of five benzene derivatives, namely benzene （BZ）, toluene （TU）, p-xylene （PX）, o-xylene （MX）, and m-xylene （OX）, in seawater and Mytilus coruscus were studied in a static model. Five benzene derivatives with certain concentrations were added to seawater and Mytilus coruscus at an ambient temperature of （20±0.5） ℃, the residual concentrations of five benzene derivatives in seawater and Mytilus coruscus were analyzed at different time points using the headspace injection gas chromatography hydrogen flame ionization detector （HS-GC-FID） method.The results showed that the concentration changes of each component of benzene series in seawater and Mytilus coruscus were basically the same over time. The elimination rates of the five benzene series in seawater were MX, PX, TU, BZ and OX in descending order, while the elimination rates of the five benzene series in Mytilus coruscus were TU, BZ, MX, OX and PX in descending order. The elimination rates of Mytilus coruscus and seawater were different, possibly due to the complex matrix such as fat and protein rich in Mytilus coruscus. The binding degree between benzene derivatives and Mytilus coruscus mussel matrix was strong.

Key words: HS-GC-FID, benzene derivatives, seawater, Mytilus coruscus

中图分类号:

O657

宋立玲, 周旭, 廖思扬, 於佩佩, 胡芬静, 周秀锦. 基于静态模型的五种苯系物在海水和厚壳贻贝中的消除规律[J]. 湖北农业科学, 2023, 62(6): 29-32.

SONG Li-ling, ZHOU Xu, LIAO Si-yang, YU Pei-pei, HU Fen-jing, ZHOU Xiu-jin. Elimination patterns of five benzene derivatives in seawater and Mytilus coruscus based on static models[J]. HUBEI AGRICULTURAL SCIENCES, 2023, 62(6): 29-32.

参考文献

[1] YAN S, ZHOU Q X.Toxic effects of Hydrilla verticillata exposed to toluene, ethylbenzene and xyleneand safety assessment for protecting aquatic macrophytes[J]. Chemosphere,2011,85:1088-1094.
[2] 韩东强,马万云,陈瓞延. 吹扫捕集-气相色谱法测定海水中苯、甲苯、乙苯和二甲苯的生物降解[J]. 分析化学,2006,34(10):1361-1365.
[3] CAVALCANTE R M, DE ANDRADE M V, MARINS R V, et al. Development of a headspace-gas chromatography (HS-GC-PID-FID) method for the determination of VOCs in environmental aqueous matrices: Optimization, verification and elimination of matrix effect and VOC distribution on the Fortaleza Coast, Brazil[J]. Microchemical journal, 2010,96(2):337-343.
[4] 吴金浩,王召会,王摆,等. 顶空固相微萃取-气相色谱-质谱联用法测定海洋沉积物中的苯系物[J]. 色谱,2013,31(12):1218-1223.
[5] 朱四喜,周唯,杨红丽,等. 浙江舟山潮间带沉积物中二甲苯的检测[J]. 广东化工,2010,37(9):125-127.
[6] PALMA E, TOFALOS A E, DAGHIO M, et al.Bioelectrochemical treatment of groundwater containing BTEX in a continuous-flow system: Substrate interactions, microbial community analysis, and impact of sulfate as a co-contaminant[J]. New biotechnology,2019,25(53):41-48.
[7] 王摆,贺玲,高杉,等.6种苯系物对虾夷扇贝的生殖毒性作用[J]. 生态毒理学报,2014,9(6):1083-1090.
[8] FERRANDO M D, ANDREU-MOLINER E.Acute toxicity of toluene, hexane, xylene, and benzene to the rotifers Brachionus calyciflorus and Brachionus plicatilis[J]. Bulletin of environmental contamination and toxicology, 1992,49:266-271.
[9] 范亚维,周启星,王媛媛,等. 水体BTEX污染对大型潘和霍普水丝糊的毒性效应及水环境安全评价[J]. 环境科学学报, 2009,29(7):1485-1490.
[10] 范亚维,周启星. 水体中甲苯、乙苯和二甲苯对斑马鱼的毒性效应[J]. 生态毒理学报, 2009,4(1):136-141.
[11] 董颖,王摆,崔程,等. 苯系物对仿刺参肠、呼吸树谷胱甘肽过氧化物酶基因表达的影响[J]. 水产科学, 2015,34(5):311-315.
[12] 潘泳嘉,周遵春,王摆,等. 苯系物联合暴露仿刺参管足转录组差异表达基因分析[J]. 生态毒理学报,2016,11(6):82-92.
[13] 陈昳,邵卓,桂峰,等. 海水养殖业循环经济能值评价指标的构建应用[J].农村经济与科技,2019,21:69-71,80.
[14] BEYER J,GREEN N W,BROOKS S, et al.Blue mussels (Mytilus edulis spp.) as sentinel organisms in coastal pollution monitoring: A review[J]. Marine environmental research,2017,130:338-365.
[15] FARRINGTON J W, TRIPP B W, TANABE S, et al.Goldberg’s proposal of “the mussel watch”: Reflections after 40 years[J]. Marine pollution bulletin,2016,110(1):501-510.
[16] HJ1067—2019,水质苯系物的测定顶空/气相色谱法[S].
[17] 周秀锦,邵宏宏,张静,等.HS-GC-FID法检测海产品中的二甲苯[J]. 分析试验室,2018,37(8):906-909.
[18] 吴金浩,杜静,张玉凤,等.不同环境条件下海水中苯系物的挥发过程研究[J].海洋环境科学,2018,37(5):699-704.
[19] 吴金浩,杜静,张玉凤,等. 海水中苯系物的衰减及其微生物降解的贡献[J]. 海洋与湖沼,2018,49(6):1243-1250.
[20] HAN D, MA W, CHEN D.Determination of biodegradation products from benzene, toluene, ethylbenzene and xylenes in seawater by purge and trap gas chromatography[J]. Chinese journal of analytical chemistry, 2006,34(10):1361-1365.

基于静态模型的五种苯系物在海水和厚壳贻贝中的消除规律

Elimination patterns of five benzene derivatives in seawater and Mytilus coruscus based on static models

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