Multiphase redistribution differences of polycyclic aromatic hydrocarbons （PAHs） between two successive sediment suspensions 被引量：1

Multiphase redistribution differences of polycyclic aromatic hydrocarbons （PAHs） between two successive sediment suspensions

原文传递

导出

摘要 Successive sediment suspensions often happen in estuary, yet little research has probed into the difference in the release behaviors of organic compounds among different suspensions. This study took polycyclic aromatic hydrocarbons （PAHs） as typical organic contaminants and investigated the release behaviors between two successive suspensions with a particle entrainment simulator （PES）. Results showed that successive sediment suspensions lowered the concentration of dissolved PAHs in the overlying water via facilitating the re-adsorption of dissolved PAHs onto the suspended particles. Fast-release and slow-release periods of PAHs were successively observed in the both suspensions. The concentration changes of dissolved PAHs in the second suspension were generally similar with but hysteretic to those in the first suspension. More vigorous desorption and re-absorp- tion of PAHs were induced in the second suspension. Successive sediment suspensions obviously decreased the concentrations of mineral composition and organic matters in the overlying water, which significantly affects multi- phase distribution of PAHs. Successive sediment suspensions often happen in estuary, yet little research has probed into the difference in the release behaviors of organic compounds among different suspensions. This study took polycyclic aromatic hydrocarbons （PAHs） as typical organic contaminants and investigated the release behaviors between two successive suspensions with a particle entrainment simulator （PES）. Results showed that successive sediment suspensions lowered the concentration of dissolved PAHs in the overlying water via facilitating the re-adsorption of dissolved PAHs onto the suspended particles. Fast-release and slow-release periods of PAHs were successively observed in the both suspensions. The concentration changes of dissolved PAHs in the second suspension were generally similar with but hysteretic to those in the first suspension. More vigorous desorption and re-absorp- tion of PAHs were induced in the second suspension. Successive sediment suspensions obviously decreased the concentrations of mineral composition and organic matters in the overlying water, which significantly affects multi- phase distribution of PAHs.

作者 Rufeng LI Chenghong FENG Dongxin WANG Baohua LI Zhenyao SHEN

机构地区 The Key Laboratory of Water and Sediment Sciences (Ministry of Education)

出处《Frontiers of Environmental Science & Engineering》 SCIE EI CAS CSCD 2016年第2期381-389,共9页 环境科学与工程前沿（英文）

关键词 sediment suspension PAHS multiphase dis-tribution distribution coefficients sediment suspension, PAHs, multiphase dis-tribution, distribution coefficients

分类号 X132 [环境科学与工程—环境科学] TS392 [轻工技术与工程]

引文网络
相关文献

参考文献33

1Li B, Feng C, Li X, Chen Y, Niu J, Shen Z. Spatial distribution and source apportionment of PAHs in surficial sediments of the Yangtze Estuary, China. Marine Pollution Bulletin, 2012, 64(3): 636-643.
2Khairy M A, Lohmann R. Source apportionment and risk assessment ofpolycyclic aromatic hydrocarbons in the atmospheric environment of Alexandria, Egypt. Chemosphere, 2013, 91(7): 895-903.
3Doong R A, Lin Y T. Characterization and distribution ofpolycyclic aromatic hydrocarbon contaminations in surface sediment and water from Gao-ping River, Taiwan. Water Research, 2004, 38(7): 1733- 1744.
4Sanford L P. Wave-forced resuspension of upper Chesapeake Bay muds. Estuarine Research Federation, 1994, 17(1B): 148-165.
5Wang H S, Cheng Z, Liang P, Shao D D, Kang Y, Wu S C, Wong C K, Wong M H. Characterization of PAHs in surface sediments of aquaculture farms around the Pearl River Delta. Ecotoxicology and Environmental Safety, 2010, 73(5): 900-906.
6Eggleton J, Thomas K V. A review of factors affecting the release and bioavailability of contaminants during sediment disturbance events. Environment International, 2004, 30(7): 973-980.
7Patrolecco L, Ademollo N, Capri S, Pagnotta R, Polesello S. Occurrence of priority hazardous PAHs in water, suspended particulate matter, sediment and common eels (Anguilla anguilla) in the urban stretch of the River Tiber (Italy). Chemosphere, 2010, 81(11): 1386-1392.
8Brunk B K, Jirka G H, Lion L W. Effects of salinity changes and the formation of dissolved organic matter coatings on the sorption of phenanthrene: Implications for pollutant trapping in estuaries. Environmental Science & Technology, 1996, 31(1): 119 -125.
9Wiberg P L, Harris C K. Desorption of p, p'-DDE from sediment during resuspension events on the Palos Verdes shelf, California: a modeling approach. Continental Shelf Research, 2002, 22(6-7): 1005-1023.
10Calmano W, Hong J, Forstner U. Binding and mobilisation of heavy metals in contaminated sediments affected by pH and redox potential. Water Science and Technology, 1993, 28(8-9): 223-235.

同被引文献26

1郭志勇,李晓晨,王超,马海涛.pH值对玄武湖沉积物中磷的释放及形态分布的影响[J].农业环境科学学报,2007,26(3):873-877. 被引量：28
2曾巾,杨柳燕,肖琳,尹大强,秦伯强.湖泊氮素生物地球化学循环及微生物的作用[J].湖泊科学,2007,19(4):382-389. 被引量：85
3孙英,何江,吕昌伟,刘二东,沈丽丽.岱海表层沉积物中影响氨氮释放的模拟研究[J].农业环境科学学报,2009,28(7):1464-1468. 被引量：14
4李楠,单保庆,张洪,张景来.沉积物中有机磷在pH和温度影响下的矿化机制[J].环境科学,2011,32(4):1008-1014. 被引量：26
5王新建,王松波,耿红.东湖、汤逊湖和梁子湖沉积物磷形态及pH对磷释放的影响[J].生态环境学报,2013,22(5):810-814. 被引量：14
6黄廷林,周瑞媛,夏超,徐金兰.氧化还原电位及微生物对水库底泥释磷的影响[J].环境化学,2014,33(6):930-936. 被引量：29
7张红,陈敬安,王敬富,杨海全,计永雪.贵州红枫湖底泥磷释放的模拟实验研究[J].地球与环境,2015,43(2):243-251. 被引量：26
8李庚辰,刘足根,张敏,李娟,皮坤,熊鹰,徐军.升温对超富营养型浅水湖泊沉积物营养盐动态迁移的影响[J].生态学报,2015,35(12):4016-4025. 被引量：17
9冀峰,王国祥,韩睿明,李时银,李晓君.太湖流域农村黑臭河流沉积物中磷形态的垂向分布特征[J].环境科学学报,2016,36(1):55-63. 被引量：25
10雷晓玲,韩亚鑫,冉兵,杨程.环境因子对三峡库区底泥污染物释放的影响研究[J].环境工程,2016,34(1):47-50. 被引量：9

引证文献1

1龚云辉,刘云根,杨思林,王妍,王玉莹,杜鹏睿.酸碱度对山地农村沟渠底泥营养盐动态迁移的影响[J].浙江农林大学学报,2021,38(4):756-764.

1郑博文.持久性污染物多环芳烃的研究进展[J].工业卫生与职业病,2016,42(5):386-390. 被引量：5
2田蕴,郑天凌,王新红,肖清江,张勇.厦门西海域表层水中PAHs污染与PAHs降解菌分布的关系[J].热带海洋学报,2003,22(6):15-21. 被引量：15
3佟玲,周瑞泽,吴淑琪,张玲金,李重九.土壤样品中多环芳烃的GC-MS快速分析方法[J].分析测试学报,2008,27(S1):124-126. 被引量：6
4王磊磊,郑立稳,孔学,陈贯虹,王加宁.加速溶剂萃取-GPC纯化-气相色谱-质谱法测定油区土壤中的16种多环芳烃[J].山东科学,2015,28(2):81-86. 被引量：4
5韦琳,唐海龙,郭盈盈,邹正禹,刘阳生.水泥窑PM_(2.5)排放特性及其PAHs风险分析[J].中国环境科学,2014,34(5):1113-1118. 被引量：9
6Cui Wenxuan, Yao Weixi, Xu Xiaobai(Research Center for Eco-Environmental Sciences, Chinese Academyof Sciences Beijing 100085, China).Monitoring of Potential carcinogenic polycyclic aromatic compounds in the emission from coal combustion[J].Journal of Environmental Sciences,1994,6(1):78-86.
7CHEN Bao-liang,ZHU Li-zhong.Partition of polycyclic aromatic hydrocarbons on organoben-tonites from water[J].Journal of Environmental Sciences,2001,13(2):129-136. 被引量：12
8刘静静,王儒威,刘桂建,张佳妹.淮北芦岭矿区土壤中PAHs的分布特征及分析[J].中国科学技术大学学报,2010,40(7):661-666. 被引量：5
9THE IMPACT OF POLYCYCLIC AROMATIC HYDROCARBONS AND FINE PARTICLES ON PREGNANCY OUTCOME[J].癌变．畸变．突变,2001,13(4):210-210.
10MASKAOUI Khalid,胡忠,周俊良,韩雅莉.Distribution and sources of polycyclic aromatic hydrocarbons in main aquacultural areas in Guangdong, China[J].Chinese Journal of Oceanology and Limnology,2007,25(2):166-173.

Frontiers of Environmental Science & Engineering

2016年第2期

浏览历史

内容加载中请稍等...

Multiphase redistribution differences of polycyclic aromatic hydrocarbons （PAHs） between two successive sediment suspensions 被引量：1

参考文献33

同被引文献26

引证文献1

相关作者

相关机构

相关主题

浏览历史