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26.07.2024 09:38

Most of the glyphosate in our rivers may not come from farming

Tilman Wörtz Hochschulkommunikation
Eberhard Karls Universität Tübingen

    Herbicide use in agriculture and urban areas may not be the dominant source of glyphosate in European waters, says University of Tübingen study - Far-reaching implications for indus-try and politics

    A research team at the University of Tübingen has found that most glyphosate that ends up in Euro-pean rivers likely does not come from herbicides, as previously assumed; instead, it may be the re-sult of additives to detergents. For the study, Professor Carolin Huhn of the Institute of Physical and Theoretical Chemistry and colleagues from the Geo- and Environmental Center conducted a large meta-analysis on data from European and US water protection authorities. The study has now been published in the journal Water Research.

    Until now, the use of glyphosate as a herbicide in agriculture was considered to be the main reason for its presence in bodies of water worldwide. However, European reduction measures have not led to any noticeable reduction in the environment. Professor Huhn’s study suggests that another source has been overlooked for decades. The hypothesis is that certain aminopolyphosphonates used for example in laundry detergents are converted to glyphosate in the sewage sludge of wastewater treatment plants.

    A wealth of measurement data

    In order to trace the pathways of glyphosate into rivers, the working group at the Institute of Physical and Theoretical Chemistry and colleagues from the Department of Geosciences analyzed long time series of glyphosate concentrations in rivers gathered mainly from authorities responsible for water protection in Germany, France, Italy, Sweden, Luxembourg, the UK, the Netherlands and the USA. Some of the data sets reached back to 1997. The researchers included data from about one hun-dred locations in their study.

    The starting point for the study was the observation that glyphosate concentrations in European riv-ers show a strong seasonality with high concentrations in summer and low concentrations in winter. Yet, with agriculture being the a dominant source, we would expect increased concentrations from agriculture during the main application phases in spring and autumn, as well as increased concentra-tions after rain events. Glyphosate is used to prevent unwanted plant growth in agriculture, as well as in residential areas and in rail track beds. "In soil and water, glyphosate is partly converted to ami-nomethylphosphonic acid, or AMPA. Both substances can be mobilized by precipitation and find their way into rivers," says Huhn, who is also the spokesperson for the Environmental Systems Plat-form, part of the University of Tübingen’s Excellence Strategy. This seasonal profile is known from substances entering surface waters from wastewater treatment plants, such as pharmaceuticals and household chemicals. Calculating the amount of glyphosate being transported in a river per day, a fairly constant input is derived from the data. The concentration peaks expected from agricultural sources were only observed at very few, exclusively agricultural, measuring points in Europe. Fur-thermore, the input pattern of other herbicides is almost opposite to the one of glyphosate.

    Thus, the study, carried out with Tübingen geoscientists Dr. Marc Schwientek, Dr. Hermann Rügner, Professor Stefan Haderlein and the chemistry PhD students Sarah Bieger and Lisa Engelbart, showed that the main source of glyphosate and AMPA in rivers must come from wastewater from sewage treatment plants. "A survey of literature data shows that glyphosate is found in all the wastewater treatment plants examined in Europe, and its concentration was remarkably constant throughout the year," says Huhn.


    A source from households?

    "The detailed analysis of the millions of individual values shows us that municipal wastewater plays a role. And some of the findings of the study also show us that we have to locate a source for glypho-sate close to households," says Huhn. The researchers believe there must be a dominant input sepa-rate from the use of herbicides; the patterns in concentration could not be explained any other way.

    "However, everything we cannot explain about the data disappears if we assume that we are not really looking at glyphosate which was previously used as a herbicide, but instead at glyphosate that has formed from a larger substance," says analytical chemist Huhn. The researchers compiled a list of criteria from their data, and identified a substance chemically related to glyphosate, which would resolve all the questions raised from the meta-analysis. Their hypothesis is that glyphosate is a trans-formation product from aminopolyphosphonates which are used extensively in Europe and especial-ly in laundry detergents.

    Initial laboratory tests have now been completed and confirm the hypothesis of glyphosate formation in wastewater treatment plants from this laundry additive. However, there is also some good news: "We do not see glyphosate formation when we simulate conditions directly in the washing machine".

    The results may explain why it has not been and will not be possible to reduce glyphosate pollution in rivers in Europe by herbicide reduction strategies, Huhn summarizes. The new glyphosate source must be verified in independent studies. Authorities must surely discuss how to continue surface wa-ter monitoring and how to possibly regulate the aminopolyphosphonates or improve elimination rates in wastewater treatment. "We are aware that our findings may have far-reaching implications, includ-ing for industry and policymakers but also for how surface water monitoring can be improved.

    The situation in the USA is different from that in the EU; concentration patterns of glyphosate in U.S. river water closely follows those of other herbicides indicating a dominant agricultural input. In con-trast to Europe, aminopolyphosphonates are hardly used in the USA in laundry detergents.


    Wissenschaftliche Ansprechpartner:

    Professor Dr. Carolin Huhn
    University of Tübingen
    Institute of Physical and Theoretical Chemistry
    Phone +49 7071 29-75655
    carolin.huhn[at]uni-tuebingen.de


    Originalpublikation:

    M. Schwientek, H. Rügner, S.B. Haderlein, W. Schulz, B. Wimmer, L. Engelbart, S. Bieger, C. Huhn. “Glyphosate contamination in European rivers not from herbicide application?” Water Research. July 23, 2024. https://doi.org/10.1016/j.watres.2024.122140


    Bilder

    Analysis of sewage sludge for the formation of glyphosate in Professor Carolin Huhn's laboratory at the University of Tübingen
    Analysis of sewage sludge for the formation of glyphosate in Professor Carolin Huhn's laboratory at ...
    Friedhelm Albrecht
    University of Tübingen

    Analysis of sewage sludge for the formation of glyphosate in Professor Carolin Huhn's laboratory at the University of Tübingen
    Analysis of sewage sludge for the formation of glyphosate in Professor Carolin Huhn's laboratory at ...
    Friedhelm Albrecht
    University of Tübingen


    Merkmale dieser Pressemitteilung:
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    Chemie, Umwelt / Ökologie
    überregional
    Forschungsergebnisse
    Englisch


     

    Analysis of sewage sludge for the formation of glyphosate in Professor Carolin Huhn's laboratory at the University of Tübingen


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    Analysis of sewage sludge for the formation of glyphosate in Professor Carolin Huhn's laboratory at the University of Tübingen


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