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4种海洋贝类对水体中Pb的富集规律
引用本文:郭远明,刘琴,顾捷,尤炬炬,刘士忠,孙秀梅. 4种海洋贝类对水体中Pb的富集规律[J]. 海洋学研究, 2013, 31(1): 78-84
作者姓名:郭远明  刘琴  顾捷  尤炬炬  刘士忠  孙秀梅
作者单位:浙江省海洋水产研究所,农业部重点渔场渔业资源科学观测实验站,浙江省海洋渔业资源可持续利用技术研究重点实验室,浙江 舟山 316100
基金项目:国家海洋公益性行业科研专项经费资助项目(200905010-15);浙江省重大科技专项计划资助项目(2012C13005);浙江省科技资助项目(2012F20026)
摘    要:为了研究泥蚶、菲律宾蛤、缢蛏和单齿螺等海洋贝类对海水中Pb的富集规律,本文在设置Pb质量浓度分别为0.001 0,0.003 5,0.006 0,0.011 0,0.026 0和0.051 0 mg/L 6个试验组中,采用半静水法进行泥蚶、菲律宾蛤、缢蛏和单齿螺对海水中Pb的富集试验,分别在0,1,3,5,10,15,20,25和30 d时取出部分贝类用微波消解原子吸收光谱法测定Pb含量,并探讨了贝类对Pb的富集机制,比较了不同贝类对Pb的富集能力。实验结果表明:4种贝类均表现出了对Pb有一定的富集效应。水体中Pb质量浓度达到0.003 5 mg/L时,泥蚶对Pb富集明显;水体中Pb质量浓度达到0.006 0 mg/L时,菲律宾蛤对Pb富集明显。水体中Pb质量浓度达到0.011 0 mg/L时,缢蛏和单齿螺对Pb富集明显。总体上,贝类体内重金属含量随着水体中Pb质量浓度和富集时间的增加而增加。在Pb质量浓度低于0.051 mg/L的所有试验组中,时间越长,贝类体内富集的Pb含量越高,但在3 d左右时,贝类体内富集的Pb含量却出现低值。

关 键 词:泥蚶  菲律宾蛤  缢蛏  单齿螺  生物富集  Pb  
收稿时间:2012-09-05

The research of lead bioaccumulation in four species of seashell
GUO Yuan-ming,LIU Qin,GU Jie,YOU Ju-ju,LIU Shi-zhong,SUN Xiu-mei. The research of lead bioaccumulation in four species of seashell[J]. Journal of Marine Sciences, 2013, 31(1): 78-84
Authors:GUO Yuan-ming  LIU Qin  GU Jie  YOU Ju-ju  LIU Shi-zhong  SUN Xiu-mei
Affiliation:Marine Fishery Research Institute of Zhejiang Province, Scientific Observing and ExperimentalStation of Fishery Resources for Key Fishing Grounds, MOA, Key Laboratory of Sustainable Utilization of Technology Research for FisheryResource of Zhejiang Province, Zhoushan 316100, China
Abstract:In the present study, the bioaccumulation of lead in four species of seashell including Tegillarca granos, Ruditapes philippinarum, Sinonovacula constricat canarck and Monodonta labio were investigated in a semi-static system. The seashell were cultivated in seawater contaminated with different lead concentrations (0.001 0,0.003 5,0.006 0,0.011 0,0.026 0,0.051 0 mg/L, respectively). The content of Pb was analyzed in muscle tissue using atomic absorption spectrometry with microwave digestion in 0, 1, 3, 5, 10, 15, 20, 25 and 30 d, respectively.The results indicated that the four species of seashell could accumulate lead from aquatic environment. The bioaccumulation of Tegillarca granosa was obvious while the concentration of lead in seawater was higher than 0.003 5 mg/L. The lead concentration in Monodonta labio increased significantly while the concentration of lead in seawater was higher than 0.006 mg/L. Similarly, the lead content in Ruditapes philippinarum and Sinonovacula constricat canarck exhibited significant increases while the concentration of lead in seawater was higher than 0.011 mg/L. As a whole, the levels of Pb in seashell increased with the increase of those in seawater and the enrichment time. While the concentraion of lead in seawater was lower than 0.051 mg/L, the levels of lead in seashell showed significant decrease in 3 d and continued to increase after 5~10 d. Finally, the mechanisms of seashell response to lead enrichment were also investigated.
Keywords:Tegillarca granosa  Ruditapes philippinarum  Sinonovacula constricat canarck  Monodonta labio  bioaccumulation  Pb  
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