亚得里亚海中部海水中微生物群落与汞物种的关系Relationship between microbial communities and mercury species in the seawater of the Central Adriatic Sea |
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课程网址: | http://videolectures.net/ipssc2017_zivkovic_seawater/ |
主讲教师: | Igor Živković |
开课单位: | 约瑟夫·斯特凡研究所 |
开课时间: | 2017-05-23 |
课程语种: | 英语 |
中文简介: | 海水和沉积物中的微生物过程可将无机汞转化为有毒甲基汞(MeHg)。我们的研究目的是确定亚得里亚海海水中微生物丰度和汞物种之间的关系。2014年2月至2015年12月,在亚得里亚海中部的研究船Bios Dva上进行采样。研究仅限于从沿海Kastela湾到公海岛屿Vis的五个样带采样站。对亚得里亚海沿岸和开阔水域的海水进行采样,以测定总汞(THg)、溶解气态汞(DGM)、甲基汞(MeHg)和微生物物种。使用垂直拖网采集浮游生物样品,用于测定THg和甲基汞。 海水中THg浓度最高(4.58-27.8 pmol/L)出现在Kastela湾,该湾受到氯碱厂先前污染的影响。在Vis岛的原始环境中,THg值最低(0.69-5.48 pmol/L)。DGM在原始环境(0.11-1.23 pmol/L)中的显示值总是低于受污染海岸站(0.16-1.75 pmol/L)中的显示值。所有站点的甲基汞浓度范围为0.05-0.17 pmol/L,最高值出现在Kastela湾。以甲基汞形式存在的THg的平均百分比较低(2.23%),表明汞甲基化不足或甲基汞去甲基化率较高。汞组分(THg、DGM和甲基汞)与细菌总丰度、皮亚克菌数量和原绿球菌属蓝藻数量显著相关(Spearman秩次相关,P<0.01)。此外,THg和DGM与聚球菌属蓝藻的数量相关(Spearman秩次相关,P<0.001)。这些相关性表明汞物种与海洋微生物群落的最小成员之间存在关联,以及自养微微浮游生物可能在水柱中转化汞。 浮游生物中THg的平均浓度最高的是卡斯特拉湾(53和200µm组分分别为1.69和0.91 nmol/g干重),而最低的是分裂海峡站(53和200µm组分分别为0.29和0.27 nmol/g干重)。与53µm组分(平均干重分别为59.4和22.6 pmol/g)相比,200µm组分中的甲基汞浓度显著更高(t检验,P<0.001)。这些结果显示了浮游生物中THg浓度的生物稀释效应,在卡斯特拉湾观察到的效果最好。相反,与53µm组分相比,200µm组分中的甲基汞浓度和甲基汞百分比显著升高,证明了甲基汞在营养水平上的生物累积。 |
课程简介: | Microbial processes in seawater and sediments can convert inorganic mercury into toxic methylmercury (MeHg). The objective of our research is to identify relationship between microbial abundance and mercury species in the Adriatic seawater. Samplings were performed aboard the research vessel Bios Dva from February 2014 to December 2015 in the Central Adriatic Sea. Research was constrained to five sampling stations in transect from the coastal Kastela Bay to the open sea island of Vis. Seawater was sampled for the determination of total mercury (THg), dissolved gaseous mercury (DGM), methylmercury (MeHg) and microbial species in Adriatic coastal and open waters. Plankton samples for the determination of THg and MeHg was collected using vertical towing nets. The highest THg concentrations in seawater (4.58-27.8 pmol/L) are found in the Kastela Bay, which was affected by previous contamination from chlor-alkali factory. THg values are the lowest in the pristine environment of the island of Vis (0.69-5.48 pmol/L). DGM always shows lower values in the pristine environment (0.11-1.23 pmol/L) than in contaminated coastal stations (0.16-1.75 pmol/L). MeHg concentrations range from 0.05-0.17 pmol/L for all stations, with the highest values found in the Kastela Bay. The average percentage of THg present as MeHg is low (2.23%) indicating deficiency of mercury methylation or high MeHg demethylation rates. Mercury fractions (THg, DGM and MeHg) are significantly correlated with the total bacterial abundance, number of picoeukaryotes, and the number of cyanobacteria from the genus Prochlorococcus (Spearman Rank Order Correlation, P < 0.01). In addition, THg and DGM are correlated with the number of cyanobacteria from the genus Synechococcus (Spearman Rank Order Correlation, P < 0.001). These correlations indicate association of mercury species with the smallest members of the marine microbial community, and possible mercury transformations in the water column by the autotrophic picoplankton. The highest average THg concentrations in plankton are found in the Kastela Bay (1.69 and 0.91 nmol/g dry weight for 53 and 200 µm fraction, respectively), while the lowest values are found at the Split Channel station (0.29 and 0.27 nmol/g dry weight for 53 and 200 µm fraction, respectively). The MeHg concentration are significantly higher (t-test, P < 0.001) in the 200 µm fraction, compared to 53 µm fraction (on average 59.4 and 22.6 pmol/g dry weight, respectively). These results show biodilution effect of THg concentrations in plankton, which is best observed in the Kastela Bay. On the contrary, MeHg bioaccumulation along trophic levels is demonstrated through significantly higher MeHg concentrations and MeHg percentage in 200 µm fraction, compared to 53 µm fraction. |
关 键 词: | 微生物过程; 微生物丰度和汞物种之间的关系; 浮游生物 |
课程来源: | 视频讲座网 |
数据采集: | 2021-11-05:zkj |
最后编审: | 2021-11-05:zkj |
阅读次数: | 85 |