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Frontpage News 2017 Did you know that tap water can contain other people’s medication?

07-09-17-Water story
Illustrative photo: Colin R. Leech/Flickr

Did you know that tap water can contain other people’s medication?

  • Czech researchers found 45 different types of medicines in samples from a river that will be turned into drinking water for the Prague region. Together with Norwegian scientistis, they now search for methods to keep the drugs out of your drinking water.

    Today’s medicines have been designed to be stable and long-lasting. A substantial amount of the prescribed drugs taken by people goes through their bodies and out into wastewater. In addition you have all the leftover medicines which are flushed down the sink.

    Paracetamol and anti-depressants

    “So far, we’ve detected 45 different medicines in the water. We’re seeing that the proportion of Paracetamol is growing year by year, and over the past ten years, there’s been a dramatic increase in anti-depressants. The medicine pollution comes from humans through the sewage system,” says Jan Vymazal, professor at the Czech University of Life Sciences in Prague.

    He runs the Aquarius project, where Czech and Norwegian researchers are working together to ensure water quality. The goal is to be able to better trace and balance sources of water pollution and its origins, as well as evaluate typical and alternative waste water treatment methods. The project is supported through the Norway Grants.

    07-09-17-waterstory_1 Project leader Jan Vymazal (left) and project partner Petr Fučík from the Czech Research Institute for Soil and Water Conservation, carry out water tests outside Prague. Photo credit: FMO

     

     

    Drugs in lakes and rivers

    Most wastewater treatment systems are very effective at removing solids and harmful bacteria but they were not designed to remove pharmaceuticals. This leads to a proportion of these drugs pouring unaltered through the sewage filtering system into streams, lakes, rivers and bays, where they could end up in drinking reservoirs and re-enter our domestic supply. Some end up in mud at the wastewater plants, which is used, among others, for agricultural fertilisation.

    "Medicines are a challenge since they occur in low concentrations, which require sensitive analytical methods. This is only possible using very expensive, cutting-edge equipment. That's why we are reliant on collaborative research and new methods for measuring," says Jan.

    Measuring pollution

    During spring, melt water from snowy fields increases the water levels in the rivers outside Prague. The yellowish-brown water will become drinking water for 1.3 million Czechs, but first pollution from medicine, human waste and personal care products must be measured and monitored.

    07-09-17-waterstory_2 The water flowing in this river will become drinking water for 1.3 million Czechs living in and around Prague. Photo: FMO
     

    On paper, the reservoir outside Prague meets 99.9% of the criteria for drinking water.

    “This is the first stop in quality checking. Over the past two years, we’ve collected and analysed 30 water samples, but common medicines like Paracetamol and Ibuprofen aren't easy to detect,” says Jan Vymazal.

    So far, measurable concentrations have globally been found in water systems, fjords, mussels and fish. Painkillers in tablet form dominate. Several countries are doing research into the consequences of medicines ending up in the natural environment. The European Commission has consequences of pharmaceuticals in the environment high on the agenda.

    “If people are exposed to low concentrations of medicines over time, they will slowly build up resistance to the medicines. As a result, they won’t work as intended in the treatment of different illnesses,” says Jan.

    Sources of pollution

    The Aquarius research project aims to reinforce research competence in both countries. Findings and water quality improvement options, which will be achieved through the project, are unknown in the Czech Republic as well as partly in Norway, although they are of a crucial importance for achieving obligatory targets, set by the EU Water Framework Directive.

    07-09-17-waterstory_3 Adam Paruch visited various wastewater treatment plants in the Czech Republic over the course of the Aquarius project. Photo: Private
     

    Norwegian scientists are focusing on the sources and origins of different forms of water pollution.

    “We have adopted new methods and assessed the water quality using microbiological and molecular tests. These methods don’t just distinguish between human and animal water contamination origins, but also between particular pollution sources, that is, which animal groups are responsible for the pollution,” says Adam Paruch from the Norwegian Institute of Bioeconomy Research in Ås.

    Waste from animals

    Human and animal waste that ends up in the water we drink or bathe in – so-called faecal water pollution – is one of the most common reasons why water can make people ill. Urban and agricultural run-offs, leaks from sewage pipes and defective wastewater treatment plants are the most common polluters.

    “The origin of the pollution is crucial if we are to set up effective measures to combat sources of waterborne diseases, and further reduce exposure and health risks,” says Adam.

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  • Country:

    Czech Republic


    Project title:

    Assessing water quality improvement options concerning nutrient and pharmaceutical contaminants in rural watersheds

    Project number:

    CZ09-0013

    Priority sector:

    Research and Scholarship

    Grant:

    € 680680

    Status:

    In Progress

    Project promoter:

    Czech University of Life Sciences Prague

    Type of Institution:

    University, college or other teaching institution, research institute or think-tank

    Project duration:

    35 months

    Project cost:

    € 1,001,000

    Grant from:

    Norway Grants

    The project will focus on evaluation of point and non-point sources of water pollution, especially nutrients, organics and pharmaceuticals and personal care products (PPCPs) in the drinking water reservoir catchment. The project will assess cost effective land and agricultural management actions or measures and waste water treatment technologies, such as constructed wetlands. Results from monitoring will serve as a base for modelling approach within a catchment area. Water quality improvement options, which will be achieved in the proposed project, are lacking in the Czech Republic as well as in Norway, although they are of a crucial importance for achieving obligatory targets, set by Water Framework Directive. The project outcomes are necessary to create conceptual guidelines for soil and (waste)water management in drinking water reservoir catchment. The research will be run both in the Czech Republic and Norway to complement each other.