Desrosiers Mélanie, Gagnon Christian, Masson Stéphane, Martel Louis, Babut Marc P
Cemagref-Groupement de Lyon, Ecotoxicology Laboratory, 3 bis Quai Chauveau, CP 220, 69336 Lyon Cedex 9, France.
Sci Total Environ. 2008 Jan 15;389(1):101-14. doi: 10.1016/j.scitotenv.2007.08.019. Epub 2007 Sep 27.
The availability and bioaccumulation of metals and metalloids, and the geochemical interactions among them, are essential to developing an ecological risk assessment (ERA) framework and determining threshold concentrations for these elements. The purpose of this study was to explore the relationships among total recoverable and reactive metals and metalloid in sediment and their bioaccumulation by chironomids. In the fall of 2004 and 2005, 58 stations located in the three fluvial lakes of the St. Lawrence River and its largest harbour area in Montreal, Canada, were sampled. Nine total recoverable and reactive metals (Al, Cd, Cr, Cu, Fe, Mn, Ni, Pb and Zn) and one metalloid (As) were measured in whole sediment using two extraction methods: HCl/HNO(3) and HCl 1N, respectively. The bioaccumulation of six metals (Cd, Cr, Cu, Ni, Pb and Zn) and As by chironomids was evaluated in a subset of 22 stations. Strong collinearities were observed between some total recoverable or reactive metal concentrations in sediment; two principal clusters, including collinear metals, were obtained. The first one included metals of mainly geological origin (Al, Cr, Fe, Mn, Ni), while the second one included As, Cd, Cu, Pb and Zn, which likely derive mainly from point sources of anthropogenic contamination. Each element also showed strong collinearity between their total recoverable and reactive forms (0.65< or =r < or =0.97). We can conclude that both chemical forms are equivalent for use in statistical models needed to explain biological responses and also in screening risk assessment. However, these relationships are not always proportional. Lower availability percentages were observed for Cd, Cu and Zn in the highly mixed-contaminated area of the Montreal Harbour, even though concentrations in sediment were higher. We observed a significant correlation (0.50< or =r < or =0.56) between concentrations in chironomids and concentrations of both total recoverable and reactive Cr and Pb in sediment. Arsenic was an exception, with accumulation by chironomids being highly related to reactive sediment concentrations. Finally, we observed variable influences of explanatory factors (e.g. sediment grain size, Al, Fe, Mn, S, TOC), depending on which metal or metalloid was being predicted in chironomids. In this context, it is difficult to choose a universal predictive method to explain the bioaccumulation of specific metals, and more research is still needed into normalization procedures that consider a combination of explanatory factors.
金属和类金属的有效性、生物累积性以及它们之间的地球化学相互作用,对于建立生态风险评估(ERA)框架和确定这些元素的阈值浓度至关重要。本研究的目的是探讨沉积物中总可回收和活性金属及类金属之间的关系,以及它们在摇蚊中的生物累积情况。在2004年和2005年秋季,对位于加拿大蒙特利尔圣劳伦斯河的三个河成湖及其最大港区的58个站点进行了采样。使用两种萃取方法分别在全沉积物中测量了9种总可回收和活性金属(铝、镉、铬、铜、铁、锰、镍、铅和锌)以及1种类金属(砷):HCl/HNO₃和1N HCl。在22个站点的子集中评估了摇蚊对6种金属(镉、铬、铜、镍、铅和锌)和砷的生物累积情况。观察到沉积物中一些总可回收或活性金属浓度之间存在很强的共线性;获得了两个主要聚类,包括共线金属。第一个聚类包括主要来自地质来源的金属(铝、铬、铁、锰、镍),而第二个聚类包括砷、镉、铜、铅和锌,它们可能主要来自人为污染的点源。每种元素的总可回收和活性形式之间也显示出很强的共线性(0.65≤r≤0.97)。我们可以得出结论,两种化学形式在用于解释生物反应所需的统计模型以及筛选风险评估中是等效的。然而,这些关系并不总是成比例的。在蒙特利尔港高度混合污染区域,尽管沉积物中镉、铜和锌的浓度较高,但观察到的有效性百分比较低。我们观察到摇蚊中的浓度与沉积物中总可回收和活性铬及铅的浓度之间存在显著相关性(0.50≤r≤0.56)。砷是个例外,摇蚊对其的累积与活性沉积物浓度高度相关。最后,我们观察到解释因素(如沉积物粒度、铝、铁、锰、硫、总有机碳)的影响各不相同,这取决于要预测摇蚊中的哪种金属或类金属。在这种情况下,很难选择一种通用的预测方法来解释特定金属的生物累积,仍需要更多关于考虑多种解释因素组合的归一化程序的研究。
