Several wetlands have been sampled for analysis of (pore)water composition and colloids identification. For this, different size fractions were separated by ultrafiltration, and colloids were observed with transmission electron microscopy (TEM). These wetland sites include a wetland in the valley between Lausanne and Fribourg, which is influenced by agricultural activities; a high-altitude wetland close to the lake Cadagno in the Swiss canton of Tessin, and a wetland in Gola di Lago in the canton of Tessin.
The wetland of Gola di Lago was selected for further research, based on 1) the primary results of bulk uranium concentrations, 2) the fact that this is a pristine mountain wetland not impacted by anthropogenic activities, and 3) the fact that information was available about the composition of the sediment phase. Three piezometers that allow for the sampling of porewater under anoxic conditions were installed in April 2017. Porewater samples were collected in July 2017, October 2017, April 2018 and September 2018. Streams flowing in and out of the wetland were also collected. All samples were filtered immediately in a field glovebox and stored in anoxic, cold conditions. Dissolved oxygen and pH were analyzed on site. In the laboratory, the samples were analyzed for the geochemical composition, including non-purgeable dissolved organic carbon (DOC), S and S(-II), Fe and Fe(II), U and other major and trace elements.
Within a maximum of fourteen days after sampling, the association of the metals to the colloids was characterized by coupling Asymmetrical Flow Field-Flow Fractionation (AF4) with a UV detector, a fluorescence detector, and an Inductively Coupled Plasma Mass Spectrometer (ICP-MS). This characterization by AF4-ICP-MS was conducted at University of Geneva (UNIGE). The redox state of the samples was preserved during the AF4 analyses. The proportion of U(IV) and U(VI) was determined using strongly basic anion exchange resin. Selected porewater samples were prepared for TEM analysis, including size fractions that were collected downstream of the AF4 instrument. Colloids were observed and elemental maps were collected using scanning transmission electron microscopy and energy dispersive X-ray spectroscopy (STEM-EDS).
The main results of this study were as follows. U porewater concentrations ranged from less than a µg/L to tens of µg/L, challenging the available analytical approaches for U speciation in natural samples. AF4-ICP-MS results showed that most of the U was associated with three fractions that varied spatially and seasonally.
The most significant results of the study were submitted to Environmental Science and Technology in the form of a research article. They were also presented at the international conference on uranium biogeochemistry in October 2018. In addition, in the course of the research project, the outcomes of the project were used as a support for several actions of communication to the general public such as science days and a high school movie project.