| 燃煤电厂周围渔业养殖行为对水生生态环境中汞形态变化的影响 |
| 摘要点击 1916 全文点击 909 投稿时间:2015-02-10 修订日期:2015-03-16 |
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| 中文关键词 渔业养殖 燃煤电厂 汞形态 水生生态环境 象山港 |
| 英文关键词 aquaculture coal power plant mercury species aquatic ecological environment Xiangshan Harbor |
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| 中文摘要 |
| 为研究燃煤电厂周围渔业养殖行为对水生生态环境中汞形态变化的影响,以浙江省象山港渔业养殖区为研究对象,对养殖区和对照区海水样品中不同形态汞浓度进行了测定.结果表明,燃煤电厂周围海域上覆水总汞浓度达到 83.0 pmol·L-1±97.1 pmol·L-1.沉积物表层孔隙水中总溶解态汞随深度的下降而下降,并且 10cm以上孔隙水中溶解态汞浓度显著高于 10 cm以下溶解态汞含量(P<0.001),以上结果表明象山港海域水体中较高的汞浓度很有可能源于燃煤电厂的烟气释放.养殖区水体总汞浓度(96.5 pmol·L-1±133 pmol·L-1)高于对照区(69.5 pmol·L-1±39.4 pmol·L-1),主要源于养殖行为过程中从业人员生活污水的排放以及鱼饲料等物质在沉积物中的积累,进而向上覆水中释放.渔业养殖区孔隙水表层甲基汞(24.0 pmol·L-1±16.7 pmol·L-1)浓度高于对照区(6.60 pmol·L-1±5.11 pmol·L-1),说明渔业养殖行为造成了沉积物中有机质积累,促进了汞的甲基化. |
| 英文摘要 |
| To investigate the influence of marine aquaculture around coal power plant on Hg species change in aquatic ecological environment, the fish farming area in Xiangshan Harbor, Zhejiang province, was studied. The concentrations of different Hg species in sea water collected from marine aquaculture sites (MS) and references sites (RS) were measured. The result showed that the total mercury (THg) concentration in the surface water reached 83.0 pmol·L-1±97.1 pmol·L-1. Dissolved Hg (DHg) in pore water of core sediment decreased with the increasing depth. Meanwhile, the DHg content in pore water above 10 cm was significantly higher (P<0.001) than that below 10 cm, which confirmed the influence of coal-fired power plants on the surrounding areas. THg concentration in MS (96.5 pmol·L-1±133 pmol·L-1) was higher than that in RS (69.5 pmol·L-1±39.4 pmol·L-1), which was mainly resulted from the accumulation of sewage discharge by the employees and fish feed material in sediments during breeding that were further released to the overlying water. Methylmercury concentration in pore water of MS (24.0 pmol·L-1±16.7 pmol·L-1) was also significantly higher than that in RS (6.60 pmol·L-1±5.11 pmol·L-1), which demonstrated that marine aquaculture activities promoted the methylmercury production by increasing the accumulation of organic matter in sediment. |
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