Department of Environmental Geosciences, University of Vienna, Althanstraße 14, 1090 Vienna, Austria.
Environ Sci Technol. 2013 Jul 2;47(13):7120-8. doi: 10.1021/es401193j. Epub 2013 Jun 13.
Riverine transport of iron (Fe) and arsenic (As) is affected by their associations with natural organic matter (NOM) and suspended iron (oxy)hydroxides. Speciation has a strong influence on element transport from the headwaters to the ocean because NOM may be transported over longer distances compared to iron (oxy)hydroxides. We show that Fe speciation changes along the flow path of a boreal watercourse, as water moves from NOM-rich, acidic first-order streams with pH as low as 3.9 to less acidic higher-order systems (up to pH 6.4). Analysis by Flow Field-Flow Fractionation and chemical equilibrium modeling revealed that Fe from wetland-dominated headwaters was mainly exported as Fe-NOM complexes; in catchments with a stream order >1 and with higher pH, Fe was present in Fe-NOM complexes and precipitated as nanoparticulate iron(oxy)hydroxides which aggregated as the pH increased, with their size eventually exceeding the membrane filters cutoff (0.2 μm). The measured NOM-bound Fe decreased with increasing pH, from 0.38 to 0.16 mmol Fe·g(NOM)(-1). The high concentrations of NOM-bound Fe emphasize the importance of boreal catchments to Fe export to the oceans. Concentrations of As in the <0.2 μm fraction but larger than what is usually considered "truly dissolved" (<1000 g·mol(-1)), decreased from 75% to 26% with increasing pH. The As in this size range was mainly associated with NOM but at pH >4.5 became associated with iron(oxy)hydroxides, and its transport thus became more coupled to that of the iron(oxy)hydroxides downstream in the circumneutral streams.
河流输送的铁 (Fe) 和砷 (As) 与其与天然有机物 (NOM) 和悬浮铁 (氧) 氢氧化物的结合有关。形态对元素从源头到海洋的输送有很强的影响,因为与铁 (氧) 氢氧化物相比,NOM 可能被输送到更远的距离。我们表明,Fe 的形态随着水流从富 NOM、酸性一级溪流(pH 值低至 3.9)向酸性较低的高级系统(最高 pH 值为 6.4)移动而发生变化。通过流动场流分离和化学平衡建模分析,发现在以湿地为主的源头处,Fe 主要以 Fe-NOM 络合物的形式输出;在溪流阶数>1 和 pH 值较高的流域中,Fe 存在于 Fe-NOM 络合物中,并以纳米颗粒铁 (氧) 氢氧化物的形式沉淀,随着 pH 值的升高,这些颗粒会聚集,其尺寸最终超过膜过滤器的截止值(0.2 μm)。测量到的 NOM 结合态 Fe 随着 pH 值的增加而减少,从 0.38 减少到 0.16 mmol Fe·g(NOM)(-1)。高浓度的 NOM 结合态 Fe 强调了北方流域对海洋 Fe 输出的重要性。<0.2 μm 级但大于通常认为的“真正溶解”(<1000 g·mol(-1))的 As 浓度随着 pH 值的增加从 75%减少到 26%。该尺寸范围内的 As 主要与 NOM 相关,但在 pH 值>4.5 时与铁 (氧) 氢氧化物相关,因此其输送与下游中性溪流中铁 (氧) 氢氧化物的输送更加耦合。
