Metals and hormone-disrupting substances such as oestrogens present a genuine risk to the sustainability of agriculture and water management in Europe. This is the conclusion of doctoral research conducted by Chinese environmental scientist Yuwei Jia at the Vrije Universiteit Brussel (VUB). Her research provides new insights into the distribution, availability, and risks associated with these pollutants, while also highlighting shortcomings in current regulations.
The study focused on two main areas: metals in fertilised agricultural soils and oestrogens in aquatic systems, including the Scheldt estuary. In both domains, attention was paid not only to the presence of pollutants but more importantly to their behaviour and interaction with environmental factors such as pH, redox potential, and dissolved organic carbon.
From Manure to Metal Mobility
A significant portion of Jia’s research investigated the effect of fertilisers on the mobility and bioavailability of metals. This included the use of the S920-Diffusive Gradients in Thin Films (DGT) technique—a novel method allowing researchers to measure the fraction of metals that are truly bioavailable for plant uptake. This is crucial in the context of food safety and long-term sustainable agriculture policy.
“Fertilisers are a source of heavy metals in agricultural soils,” explains her supervisor, Professor Yue Gao of VUB’s Analytical, Environmental and Geo-Chemistry (AMGC) research group. “The application of the passive DGT sampler is essential for assessing the bioavailable fractions of metals in soil, as this is directly linked to plant uptake.”
Using innovative analytical techniques, Jia was able to map the impact of different fertilisers on metal distribution in agricultural soils. She compared three types of fertilisers: phosphate fertiliser, sewage sludge, and animal manure. Her findings indicate that animal manure is the preferable option when it comes to limiting metal contamination.
Oestrogens in the Scheldt: A Declining Trend
In parallel, Jia studied the presence of oestrogens in the Scheldt estuary. These hormone-disrupting compounds—often originating from domestic wastewater—can affect the endocrine systems of aquatic organisms and, ultimately, human health. Through bioassays (ER-CALUX), she demonstrated that oestrogenic activity in the water column decreases downstream, and that sediment concentrations show a general decline over a period of four decades.
“These results demonstrate the impact of investment in wastewater treatment and the effect of European regulations such as the Water Framework Directive,” says Professor Emeritus Willy Baeyens. Nevertheless, continued monitoring remains essential, particularly in light of emerging chemical substances and changing industrial and urban discharge patterns.
An International Dimension
Yuwei Jia previously obtained her Bachelor’s and Master’s degrees in Environmental Science in China, and her doctoral research in Brussels was funded by the China Scholarship Council. During her PhD, she published three articles in international peer-reviewed journals and presented her findings at various international conferences.
Her research underscores the importance of integrated environmental policy at the intersection of soil quality, water management, and food safety—areas that are expected to become even more prominent on the policy agenda in the coming years.
More information:
Doctoraat: Investigation on soil and water contaminants by Diffusive Gradients in Thin Films (DGT) and Chemical Activated LUciferase gene eXpression (CALUX)