北京市场常见水产品中总汞、甲基汞分布特征及食用风险

以甲苯二次萃取-直接测汞的方法对北京市场常见水产品中的甲基汞进行分析测定,并评价了食用人群的暴露风险。分析样品包括大黄鱼（Pseudosciaena crocea）、虾（Penaeus chinensis）等9种常见海产品以及武昌鱼（Megalobrama amblycephala Yih）、鳙鱼（Aristichthys nobilis）2种淡水海产品。测定结果表明：海产品中总汞和甲基汞质量分数要远高于淡水鱼中的总汞和甲基汞质量分数,总汞绝大多数是以甲基汞的形式存在,所占比例从74.7%到96.0%不等;对其中3种鱼类的鱼体甲基汞分布研究表明：肌肉中的甲基汞质量分数最高,肝脏中次之,鱼鳃中质量分数最低。根据我国水产品甲基汞标准,本研究中水产品甲基汞质量分数均低于国家标准,但根据世界卫生组织（WHO）和美国环保署EPA颁布的甲基汞摄入量参考值,食用银鳕鱼等甲基汞质量分数相对较高的水产品仍然存在一定的风险,应注意限量。     

太湖营养状态对沉积物中总汞和甲基汞分布特征的影响

为探讨营养状态对太湖沉积物汞的分布及其甲基化的影响,以太湖不同营养水平的湖区为研究对象,采用PSA和GC-CVAFS方法,分别测定了沉积物总汞(THg)、甲基汞(MeHg)含量;另测定了沉积物有机质含量和水体总氮、总磷浓度.结果显示,太湖表层沉积物THg含量为32.30~150.28ng/g,均值为62.94ng/g,含量高低与营养化程度一致,其垂向分布主要受到人为活动和有机质的影响;MeHg含量为0.32~1.01ng/g,均值为0.51ng/g,不同营养水平的湖湾区MeHg含量差别不大,其分布受有机质的影响,高含量富集在表层,随深度的增加逐渐降低并趋于稳定;甲基化比率比较低主要是太湖水体溶解氧含量高抑制了甲基化过程.     

非洲爪蟾胚胎用于发育神经毒性测试的方法

在美国材料与测试协会(ASTM)的非洲爪蟾胚胎致畸试验(FETAX)的基础上,以已知具有发育神经毒性的氯化甲基汞为模式化合物,探索一种以体征、运动神经元形态和运动行为参数为终点指标的研究发育神经毒性的方法.非洲爪蟾胚胎暴露氯化甲基汞3 d时,观察到暴露组胚胎的运动能力随暴露浓度(100—400 nmol·L-1)的增加而减弱.暴露4 d发现300 nmol·L-1和400 nmol·L-1暴露组胚胎体长和运动神经元明显短于对照组.暴露持续7 d,通过行为分析软件对蝌蚪运动行为定量,发现暴露处理的蝌蚪的游泳速率明显小于对照组.以上结果显示,非洲爪蟾胚胎可用来研究化学品的发育神经毒性,胚胎的体征、运动神经元形态和运动行为可以作为相对敏感的评价指标.     

环境样品中甲基汞的分析方法综述

甲基汞在环境中分布广泛,可以对人类的生活产生威胁,故对甲基汞的研究具有重要意义。但是环境样品中甲基汞的含量通常很低,一般为10-9级,甚至到10-12级,非常难于测定。文中详细论述和比较了各种常见环境样品中的预处理和分析方法,如沉积物、土壤、生物样、水样、大气等,并讨论了各种方法的优缺点。     

小兴安岭泥炭藓沼泽生态系统中的汞

研究了小兴安岭汤旺河流域中的泥炭、土壤和植物样品的汞,泥炭地总汞的平均含量为65.8～186.6ng/g;高于黑龙江土壤A层汞平均含量,也高于美国佛罗里达大沼泽国家公园和瑞典Birkeness湿地的含量.甲基汞平均含量为0.16～1.86ng/g;约占总汞的0.2%～1.4%,泥炭地总汞最高浓度出现在5～10cm深处,为186.6ng/g,甲基汞最高浓度出现在10～15cm处,为1.86ng/g,均随深度增加而减少.甲基汞含量与总汞没有很强的相关性(P=0.05,r=0.28)     

Mercury, Methylmercury, and Selenium Concentrations in Eggs of Common Loons (Gavia immer) from Canada

Concentrations of Hg and Se were determined for a total of 125Common Loon (Gavia immer) eggs collected from lakes in Alberta, Saskatchewan, Ontario, Quebec, New Brunswick and NovaScotia, Canada between 1972 and 1997. Resulting data were compared to Hg and/or Se concentrations known or suspected tocause reproductive impairment in birds. Organic (methyl) Hg analyses were also performed on a subset of 24 loon eggs. Thirty-nine of 125 eggs had total Hg levels exceeding those (0.6 g g^-1 ww, or 2.5 g g^-1 dw)previously reported to be associated with reproductive impairment in common loons (Barr, 1986), and 9 of 125 eggshad Hg concentrations higher than the level associated withreproductive impairment in birds generally 1 g g^-1 ww; (Thompson, 1996). Selenium concentrations in loon egg samples were less than levels known to cause reproductiveimpairment in birds. A weak but significant positive correlation was observed between egg-Hg and -Se concentrations(r = 0.511, p < 0.05). On average, methylmercury accounted for about 87% of total Hg in 24 eggs analysed for both total and organic Hg. In this subset of eggs, the relationship between organic (methyl) Hg and Se was significant (r = 0.538, p = 0.007) while that found between inorganic Hg and Se in the same eggs was not significant (r = 0.353, p = 0.091). This relationship was unexpected and was contrary to relationships established for organic and inorganic Hg vs. Se in adult loon liver and kidney tissue (Scheuhammer et al., 1998b).     

Mercury Loading and Methylmercury Production and Cycling in High-Altitude Lakes from the Western United States

Studies worldwide have shown that mercury (Hg) is a ubiquitouscontaminant, reaching even the most remote environments such ashigh-altitude lakes via atmospheric pathways. However, very fewstudies have been conducted to assess Hg contamination levels ofthese systems. We sampled 90 mid-latitude, high-altitude lakes from seven national parks in the western United States during afour-week period in September 1999. In addition to the synoptic survey, routine monitoring and experimental studies were conducted at one of the lakes (Mills Lake) to quantify MeHg fluxrates and important process rates such as photo-demethylation. Results show that overall, high-altitude lakes have low total mercury (HgT) and methylmercury (MeHg) levels (1.07 and 0.05 ng L^-1, respectively), but a very good correlation of Hg to MeHg (r²= 0.82) suggests inorganic Hg(II) loading is a primary controlling factor of MeHg levels in dilute mountain lakes. Positive correlations were also observed for dissolved organic carbon (DOC) and both Hg and MeHg, although to a much lesser degree. Levels of MeHg were similar among the seven national parks, with the exception of Glacier National Park where lowerconcentrations were observed (0.02 ng L^-1), and appear to berelated to naturally elevated pH values there. Measured rates ofMeHg photo-degradation at Mills Lake were quite fast, and thisprocess was of equal importance to sedimentation and stream flowfor removing MeHg. Enhanced rates of photo-demethylation are likely an important reason why high-altitude lakes, with typically high water clarity and sunlight exposure, are low in MeHg.     

Mercury Accumulation in Periphyton of Eight River Ecosystems1

Abstract: In 2003, the U.S. Geological Survey (USGS) National Water‐Quality Assessment (NAWQA) program and U.S. Environmental Protection Agency studied total mercury (THg) and methylmercury (MeHg) concentrations in periphyton at eight rivers in the United States in coordination with a larger USGS study on mercury cycling in rivers. Periphyton samples were collected using trace element clean techniques and NAWQA sampling protocols in spring and fall from targeted habitats (streambed surface‐sediment, cobble, or woody snags) at each river site. A positive correlation was observed between concentrations of THg and MeHg in periphyton (r² = 0.88, in log‐log space). Mean MeHg and THg concentrations in surface‐sediment periphyton were significantly higher (1,333 ng/m² for MeHg and 53,980 ng/m² for THg) than cobble (64 ng/m² for MeHg and 1,192 ng/m² for THg) or woody snag (71 ng/m² for MeHg and 1,089 ng/m² for THg) periphyton. Concentrations of THg in surface‐sediment periphyton had a strong positive correlation with concentrations of THg in sediment (dry weight). The ratio of MeHg:THg in surface‐sediment periphyton increased with the ratio of MeHg:THg in sediment. These data suggest periphyton may play a key role in mercury bioaccumulation in river ecosystems.     

Mercury in sediments and vegetation in a moderately contaminated salt marsh (Tagus Estuary, Portugal)

Depth variations of total mercury (Hg) and methylmercury (MeHg) concentrations were studied in cores from non-colonized sediments, sediments colonized by Halimione portulacoides, Sarcocornia fruticosa and Spartina maritima and belowground biomass, in a moderately contaminated salt marsh (Tagus Estuary, Portugal). Concentrations in belowground biomass exceeded up to 3 (Hg) and 15 (MeHg) times the levels in sediments, and up to 198 (Hg) and 308 (MeHg) times those found in aboveground parts. Methylmercury in colonized sediments reached 3% of the total Hg, 50 times above the maximum values found in non-colonized sediments. The absence of correlations between total Hg concentrations in sediments and the corresponding MeHg levels suggested that methylation was only dependent on the environmental and microbiological factors. The analysis of belowground biomass at high-depth resolution (2 cm) provided evidence that Hg and MeHg were actively absorbed from sediments, with higher enrichment factors at layers where higher microbial activity was probably occurring. The results obtained in this study indicated that the biotransformation of Hg to the toxic MeHg could increase the toxicity of plant-colonized sediments.     

乌江流域东风水库沉积物中汞及甲基汞的时空分布特征

为弄清东风水库水库沉积物中汞及甲基汞的时空分布特征,于春、夏两季对东风水库进行了采样,分别采用王水水浴消解-冷原子荧光法和萃取-乙基化结合GC-CVAFS法测定沉积物总汞和甲基汞的浓度。结果表明,春、夏两季东风水库沉积物的总汞剖面分布特征具有良好的一致性,没有明显的季节性变化;水库沉积物甲基汞浓度表现为夏季略高于春季,中、下游略高于上游,但在垂直方向上的分布规律不明显,并未像其他的水库一样在沉积物剖面中出现峰值。