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Dosing the coast: Baltimore County’s leaky pipes are medicating the Chesapeake Bay

Faulty wastewater infrastructure leads to thousands of doses of drugs entering the Bay.

Photo by Baltimore Ecosystem Study

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    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="0b6c0464-a1e2-4be6-890e-aac9fb68928f" href="/node/795">Pharmaceutical pollution to freshwaters</a> is a global problem that is poorly quantified. Mixtures of drugs in lakes, rivers, and streams can disrupt animal biology and behavior, algal growth, and other ecological processes – with harmful cascading effects.
    
    Lead author <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="4975f2f4-30f3-413a-ba96-dfa786c3bb2e" href="/node/2446">Megan Fork</a>, a postdoctoral research associate at Cary Institute of Ecosystem Studies, says, “Pharmaceuticals enter freshwaters through multiple pathways, including effluent from wastewater treatment and septic systems, as well as agricultural runoff. An important, but often overlooked contributor is aging and faulty wastewater infrastructure, which is common in many older cities.”
    
    For a year, weekly water samples were collected from six sites in Baltimore’s Gwynns Falls watershed. Fork explains, “Because Gwynns Falls streams don’t receive wastewater effluent, we were able to estimate annual loads of pharmaceutical pollution attributed to leaky pipes alone.” Sites represented a gradient of development, ranging from suburban to highly urban. The team also sampled a forested reference site to the northwest of the Gwynns Falls watershed.
    
    
    
    The Gwynns Falls watershed comprises a network of urban tributaries flowing into the Gwynns Falls stream; this stream empties into Baltimore’s Inner Harbor, which opens to the Chesapeake Bay. Credit: Wayne C. Zipperer / US Forest Service.
    
    
    
    Samples were screened for 92 pharmaceutical compounds. Across the seven study sites, 37 unique compounds were detected. The most common was the antibiotic trimethoprim. The highest concentration of pharmaceuticals was detected where the Gwynns Falls meets Baltimore’s Inner Harbor. Here, the painkiller acetaminophen was most prevalent. Drug concentrations were higher at more densely populated sites.
    
    To estimate the amount of pharmaceutical compounds that leaky pipes delivered to the watershed each year (the annual ‘load’), the team paired data on drug concentrations detected at the Gwynns Falls outlet with river discharge rates recorded by a USGS monitoring station at the site. Annual loads were calculated for nine pharmaceutical classes.
    
    The results: leaky pipes in the Gwynns Falls watershed deliver the equivalent of tens of thousands of doses of pharmaceutical compounds to Baltimore’s Inner Harbor; this includes 30,000 adult doses of antidepressants, 1,700 doses of antibiotics, and about 30,000 tablets of acetaminophen. Concentrations were environmentally relevant – at levels that could affect organisms’ behavior, biology, and other ecological processes – and highly variable, meaning aquatic organisms are exposed to a constantly changing mixture of compounds.
    
    Fork explains, “Establishing the loads of contaminants such as pharmaceuticals is important since low concentrations may mislead regulators and managers into thinking that they are insignificant. In Baltimore we are already seeing that stream-dwelling bacteria are resistant to common antibiotics, suggesting that low chronic exposures can result in significant effects on stream life.”
    
    
    
    Water samples are collected from the Gywnns Falls stream in Baltimore, Maryland. Credit: Benjamin Glass-Siegel / Baltimore Ecosystem Study.
    
    
    
    Next, the team calculated the annual watershed ‘mass balance’ for eight pharmaceutical classes. The goal: to reveal the pathways by which pharmaceutical compounds being consumed in the Gwynns Falls watershed enter the environment, and how these pathways differ among compounds.
    
    Mass balance calculations took into account data on: per capita wastewater volume, the quantity of pharmaceuticals consumed (estimated using national data on prescriptions, scaled to the population of the Gywnns Falls watershed), concentrations of drugs in sewage, the proportion of pharmaceutical compounds metabolized in the body versus the proportion excreted, the amount of pharmaceutical pollution removed by wastewater treatment, the amount that leaks, and the amount that enters the environment via treated wastewater plant effluent.
    
    Although the Gwynns Falls watershed does not receive wastewater treatment plant effluent, sewage produced in the Gwynns Falls watershed gets piped away for treatment in a nearby watershed. After treatment, this effluent is discharged into the Chesapeake Bay. This diverted sewage was included in the mass balance calculations.
    
    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="2bcd75fd-bbec-4a80-9d5a-eda789981bb5" href="/node/44">Emma Rosi,</a> senior co-author and aquatic ecologist at Cary Institute, explains, “Our findings show that plants and animals exposed to sewage from leaky pipes are receiving a different mix of compounds than those exposed to wastewater treatment plant effluent. In the Gwynns Falls watershed, wastewater effluent is the main delivery pathway for antibiotics, while painkillers are more likely to enter the environment via leaking infrastructure. This sort of information is critical to assessing organisms’ exposure to different compounds and associated effects.”
    
    Reducing pharmaceutical inputs to freshwaters requires municipal investment in repairing old and damaged wastewater infrastructure, and upgrading wastewater treatment facilities to more effectively remove these contaminants. Quantifying annual loads of pharmaceuticals entering freshwaters, and identifying pathways of entry to the environment, can guide regulation and provide metrics to assess future pollution mitigation efforts.
    
    Rosi notes, “We estimate that nearly 1% of raw sewage originating in the Gwynns Falls watershed flows into the environment via leaking infrastructure. If we extrapolate our calculations to the entire Chesapeake Bay watershed, we estimate that approximately 11.7 billion liters of raw sewage may enter the Bay via leaks every year – carrying a range of pharmaceutical compounds that can affect aquatic organisms and disrupt ecosystem processes.”
    
    With Fork concluding, “Our findings underscore the ubiquity of drugs in freshwaters, and the need to examine and account for all pollution pathways, not just obvious ones like wastewater treatment plant effluent.”
    
    This research is a contribution to the <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="aa42c5e5-3d45-4ee4-a5f0-a505d4e0a13c" href="/node/200">Baltimore Ecosystem Study</a>, a Long Term Ecological Research site funded by the US National Science Foundation. For over 20 years, the Gwynns Falls study sites have been monitored for water pollution; this data adds to a growing body of research looking at emerging environmental contaminants.
    
    Citation
    
    <a href="https://doi.org/10.1021/acs.est.1c00379">Dosing the Coast: Leaking Sewage Infrastructure Delivers Large Annual Doses and Dynamic Mixtures of Pharmaceuticals to Urban Rivers</a>. Megan L. Fork, Jerker B. Fick, Alexander J. Reisinger, and Emma J. Rosi
    Environmental Science &amp; Technology Article ASAP. DOI: 10.1021/acs.est.1c00379
    
    Investigators
    
    Megan Fork, Cary Institute of Ecosystem Studies
    Jerker Fick, Umeå University
    Alexander Reisinger, University of Florida Gainesville
    Emma Rosi, Cary Institute of Ecosystem Studies
    
    Acknowledgements
    
    This work was funded by the National Science Foundation.
    
    
    Cary Institute of Ecosystem Studies is an independent nonprofit center for environmental research. Since 1983, our scientists have been investigating the complex interactions that govern the natural world and the impacts of climate change on these systems. Our findings lead to more effective management and policy actions and increased environmental literacy. Staff are global experts in the ecology of: cities, disease, forests, and freshwater.
    
    &nbsp;
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    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="0b6c0464-a1e2-4be6-890e-aac9fb68928f" href="/node/795">Pharmaceutical pollution to freshwaters</a> is a global problem that is poorly quantified. Mixtures of drugs in lakes, rivers, and streams can disrupt animal biology and behavior, algal growth, and other ecological processes – with harmful cascading effects.
    
    Lead author <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="4975f2f4-30f3-413a-ba96-dfa786c3bb2e" href="/node/2446">Megan Fork</a>, a postdoctoral research associate at Cary Institute of Ecosystem Studies, says, “Pharmaceuticals enter freshwaters through multiple pathways, including effluent from wastewater treatment and septic systems, as well as agricultural runoff. An important, but often overlooked contributor is aging and faulty wastewater infrastructure, which is common in many older cities.”
    
    For a year, weekly water samples were collected from six sites in Baltimore’s Gwynns Falls watershed. Fork explains, “Because Gwynns Falls streams don’t receive wastewater effluent, we were able to estimate annual loads of pharmaceutical pollution attributed to leaky pipes alone.” Sites represented a gradient of development, ranging from suburban to highly urban. The team also sampled a forested reference site to the northwest of the Gwynns Falls watershed.
    
    
    
    The Gwynns Falls watershed comprises a network of urban tributaries flowing into the Gwynns Falls stream; this stream empties into Baltimore’s Inner Harbor, which opens to the Chesapeake Bay. Credit: Wayne C. Zipperer / US Forest Service.
    
    
    
    Samples were screened for 92 pharmaceutical compounds. Across the seven study sites, 37 unique compounds were detected. The most common was the antibiotic trimethoprim. The highest concentration of pharmaceuticals was detected where the Gwynns Falls meets Baltimore’s Inner Harbor. Here, the painkiller acetaminophen was most prevalent. Drug concentrations were higher at more densely populated sites.
    
    To estimate the amount of pharmaceutical compounds that leaky pipes delivered to the watershed each year (the annual ‘load’), the team paired data on drug concentrations detected at the Gwynns Falls outlet with river discharge rates recorded by a USGS monitoring station at the site. Annual loads were calculated for nine pharmaceutical classes.
    
    The results: leaky pipes in the Gwynns Falls watershed deliver the equivalent of tens of thousands of doses of pharmaceutical compounds to Baltimore’s Inner Harbor; this includes 30,000 adult doses of antidepressants, 1,700 doses of antibiotics, and about 30,000 tablets of acetaminophen. Concentrations were environmentally relevant – at levels that could affect organisms’ behavior, biology, and other ecological processes – and highly variable, meaning aquatic organisms are exposed to a constantly changing mixture of compounds.
    
    Fork explains, “Establishing the loads of contaminants such as pharmaceuticals is important since low concentrations may mislead regulators and managers into thinking that they are insignificant. In Baltimore we are already seeing that stream-dwelling bacteria are resistant to common antibiotics, suggesting that low chronic exposures can result in significant effects on stream life.”
    
    
    
    Water samples are collected from the Gywnns Falls stream in Baltimore, Maryland. Credit: Benjamin Glass-Siegel / Baltimore Ecosystem Study.
    
    
    
    Next, the team calculated the annual watershed ‘mass balance’ for eight pharmaceutical classes. The goal: to reveal the pathways by which pharmaceutical compounds being consumed in the Gwynns Falls watershed enter the environment, and how these pathways differ among compounds.
    
    Mass balance calculations took into account data on: per capita wastewater volume, the quantity of pharmaceuticals consumed (estimated using national data on prescriptions, scaled to the population of the Gywnns Falls watershed), concentrations of drugs in sewage, the proportion of pharmaceutical compounds metabolized in the body versus the proportion excreted, the amount of pharmaceutical pollution removed by wastewater treatment, the amount that leaks, and the amount that enters the environment via treated wastewater plant effluent.
    
    Although the Gwynns Falls watershed does not receive wastewater treatment plant effluent, sewage produced in the Gwynns Falls watershed gets piped away for treatment in a nearby watershed. After treatment, this effluent is discharged into the Chesapeake Bay. This diverted sewage was included in the mass balance calculations.
    
    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="2bcd75fd-bbec-4a80-9d5a-eda789981bb5" href="/node/44">Emma Rosi,</a> senior co-author and aquatic ecologist at Cary Institute, explains, “Our findings show that plants and animals exposed to sewage from leaky pipes are receiving a different mix of compounds than those exposed to wastewater treatment plant effluent. In the Gwynns Falls watershed, wastewater effluent is the main delivery pathway for antibiotics, while painkillers are more likely to enter the environment via leaking infrastructure. This sort of information is critical to assessing organisms’ exposure to different compounds and associated effects.”
    
    Reducing pharmaceutical inputs to freshwaters requires municipal investment in repairing old and damaged wastewater infrastructure, and upgrading wastewater treatment facilities to more effectively remove these contaminants. Quantifying annual loads of pharmaceuticals entering freshwaters, and identifying pathways of entry to the environment, can guide regulation and provide metrics to assess future pollution mitigation efforts.
    
    Rosi notes, “We estimate that nearly 1% of raw sewage originating in the Gwynns Falls watershed flows into the environment via leaking infrastructure. If we extrapolate our calculations to the entire Chesapeake Bay watershed, we estimate that approximately 11.7 billion liters of raw sewage may enter the Bay via leaks every year – carrying a range of pharmaceutical compounds that can affect aquatic organisms and disrupt ecosystem processes.”
    
    With Fork concluding, “Our findings underscore the ubiquity of drugs in freshwaters, and the need to examine and account for all pollution pathways, not just obvious ones like wastewater treatment plant effluent.”
    
    This research is a contribution to the <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="aa42c5e5-3d45-4ee4-a5f0-a505d4e0a13c" href="/node/200">Baltimore Ecosystem Study</a>, a Long Term Ecological Research site funded by the US National Science Foundation. For over 20 years, the Gwynns Falls study sites have been monitored for water pollution; this data adds to a growing body of research looking at emerging environmental contaminants.
    
    Citation
    
    <a href="https://doi.org/10.1021/acs.est.1c00379">Dosing the Coast: Leaking Sewage Infrastructure Delivers Large Annual Doses and Dynamic Mixtures of Pharmaceuticals to Urban Rivers</a>. Megan L. Fork, Jerker B. Fick, Alexander J. Reisinger, and Emma J. Rosi
    Environmental Science &amp; Technology Article ASAP. DOI: 10.1021/acs.est.1c00379
    
    Investigators
    
    Megan Fork, Cary Institute of Ecosystem Studies
    Jerker Fick, Umeå University
    Alexander Reisinger, University of Florida Gainesville
    Emma Rosi, Cary Institute of Ecosystem Studies
    
    Acknowledgements
    
    This work was funded by the National Science Foundation.
    
    
    Cary Institute of Ecosystem Studies is an independent nonprofit center for environmental research. Since 1983, our scientists have been investigating the complex interactions that govern the natural world and the impacts of climate change on these systems. Our findings lead to more effective management and policy actions and increased environmental literacy. Staff are global experts in the ecology of: cities, disease, forests, and freshwater.
    
    &nbsp;
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    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="0b6c0464-a1e2-4be6-890e-aac9fb68928f" href="/node/795">Pharmaceutical pollution to freshwaters</a> is a global problem that is poorly quantified. Mixtures of drugs in lakes, rivers, and streams can disrupt animal biology and behavior, algal growth, and other ecological processes – with harmful cascading effects.
    
    Lead author <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="4975f2f4-30f3-413a-ba96-dfa786c3bb2e" href="/node/2446">Megan Fork</a>, a postdoctoral research associate at Cary Institute of Ecosystem Studies, says, “Pharmaceuticals enter freshwaters through multiple pathways, including effluent from wastewater treatment and septic systems, as well as agricultural runoff. An important, but often overlooked contributor is aging and faulty wastewater infrastructure, which is common in many older cities.”
    
    For a year, weekly water samples were collected from six sites in Baltimore’s Gwynns Falls watershed. Fork explains, “Because Gwynns Falls streams don’t receive wastewater effluent, we were able to estimate annual loads of pharmaceutical pollution attributed to leaky pipes alone.” Sites represented a gradient of development, ranging from suburban to highly urban. The team also sampled a forested reference site to the northwest of the Gwynns Falls watershed.
    
    
    
    The Gwynns Falls watershed comprises a network of urban tributaries flowing into the Gwynns Falls stream; this stream empties into Baltimore’s Inner Harbor, which opens to the Chesapeake Bay. Credit: Wayne C. Zipperer / US Forest Service.
    
    
    
    Samples were screened for 92 pharmaceutical compounds. Across the seven study sites, 37 unique compounds were detected. The most common was the antibiotic trimethoprim. The highest concentration of pharmaceuticals was detected where the Gwynns Falls meets Baltimore’s Inner Harbor. Here, the painkiller acetaminophen was most prevalent. Drug concentrations were higher at more densely populated sites.
    
    To estimate the amount of pharmaceutical compounds that leaky pipes delivered to the watershed each year (the annual ‘load’), the team paired data on drug concentrations detected at the Gwynns Falls outlet with river discharge rates recorded by a USGS monitoring station at the site. Annual loads were calculated for nine pharmaceutical classes.
    
    The results: leaky pipes in the Gwynns Falls watershed deliver the equivalent of tens of thousands of doses of pharmaceutical compounds to Baltimore’s Inner Harbor; this includes 30,000 adult doses of antidepressants, 1,700 doses of antibiotics, and about 30,000 tablets of acetaminophen. Concentrations were environmentally relevant – at levels that could affect organisms’ behavior, biology, and other ecological processes – and highly variable, meaning aquatic organisms are exposed to a constantly changing mixture of compounds.
    
    Fork explains, “Establishing the loads of contaminants such as pharmaceuticals is important since low concentrations may mislead regulators and managers into thinking that they are insignificant. In Baltimore we are already seeing that stream-dwelling bacteria are resistant to common antibiotics, suggesting that low chronic exposures can result in significant effects on stream life.”
    
    
    
    Water samples are collected from the Gywnns Falls stream in Baltimore, Maryland. Credit: Benjamin Glass-Siegel / Baltimore Ecosystem Study.
    
    
    
    Next, the team calculated the annual watershed ‘mass balance’ for eight pharmaceutical classes. The goal: to reveal the pathways by which pharmaceutical compounds being consumed in the Gwynns Falls watershed enter the environment, and how these pathways differ among compounds.
    
    Mass balance calculations took into account data on: per capita wastewater volume, the quantity of pharmaceuticals consumed (estimated using national data on prescriptions, scaled to the population of the Gywnns Falls watershed), concentrations of drugs in sewage, the proportion of pharmaceutical compounds metabolized in the body versus the proportion excreted, the amount of pharmaceutical pollution removed by wastewater treatment, the amount that leaks, and the amount that enters the environment via treated wastewater plant effluent.
    
    Although the Gwynns Falls watershed does not receive wastewater treatment plant effluent, sewage produced in the Gwynns Falls watershed gets piped away for treatment in a nearby watershed. After treatment, this effluent is discharged into the Chesapeake Bay. This diverted sewage was included in the mass balance calculations.
    
    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="2bcd75fd-bbec-4a80-9d5a-eda789981bb5" href="/node/44">Emma Rosi,</a> senior co-author and aquatic ecologist at Cary Institute, explains, “Our findings show that plants and animals exposed to sewage from leaky pipes are receiving a different mix of compounds than those exposed to wastewater treatment plant effluent. In the Gwynns Falls watershed, wastewater effluent is the main delivery pathway for antibiotics, while painkillers are more likely to enter the environment via leaking infrastructure. This sort of information is critical to assessing organisms’ exposure to different compounds and associated effects.”
    
    Reducing pharmaceutical inputs to freshwaters requires municipal investment in repairing old and damaged wastewater infrastructure, and upgrading wastewater treatment facilities to more effectively remove these contaminants. Quantifying annual loads of pharmaceuticals entering freshwaters, and identifying pathways of entry to the environment, can guide regulation and provide metrics to assess future pollution mitigation efforts.
    
    Rosi notes, “We estimate that nearly 1% of raw sewage originating in the Gwynns Falls watershed flows into the environment via leaking infrastructure. If we extrapolate our calculations to the entire Chesapeake Bay watershed, we estimate that approximately 11.7 billion liters of raw sewage may enter the Bay via leaks every year – carrying a range of pharmaceutical compounds that can affect aquatic organisms and disrupt ecosystem processes.”
    
    With Fork concluding, “Our findings underscore the ubiquity of drugs in freshwaters, and the need to examine and account for all pollution pathways, not just obvious ones like wastewater treatment plant effluent.”
    
    This research is a contribution to the <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="aa42c5e5-3d45-4ee4-a5f0-a505d4e0a13c" href="/node/200">Baltimore Ecosystem Study</a>, a Long Term Ecological Research site funded by the US National Science Foundation. For over 20 years, the Gwynns Falls study sites have been monitored for water pollution; this data adds to a growing body of research looking at emerging environmental contaminants.
    
    Citation
    
    <a href="https://doi.org/10.1021/acs.est.1c00379">Dosing the Coast: Leaking Sewage Infrastructure Delivers Large Annual Doses and Dynamic Mixtures of Pharmaceuticals to Urban Rivers</a>. Megan L. Fork, Jerker B. Fick, Alexander J. Reisinger, and Emma J. Rosi
    Environmental Science &amp; Technology Article ASAP. DOI: 10.1021/acs.est.1c00379
    
    Investigators
    
    Megan Fork, Cary Institute of Ecosystem Studies
    Jerker Fick, Umeå University
    Alexander Reisinger, University of Florida Gainesville
    Emma Rosi, Cary Institute of Ecosystem Studies
    
    Acknowledgements
    
    This work was funded by the National Science Foundation.
    
    
    Cary Institute of Ecosystem Studies is an independent nonprofit center for environmental research. Since 1983, our scientists have been investigating the complex interactions that govern the natural world and the impacts of climate change on these systems. Our findings lead to more effective management and policy actions and increased environmental literacy. Staff are global experts in the ecology of: cities, disease, forests, and freshwater.
    
    &nbsp;
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  • Deprecated function: str_replace(): Passing null to parameter #3 ($subject) of type array|string is deprecated in Drupal\Component\Utility\Xss::filter() (line 69 of core/lib/Drupal/Component/Utility/Xss.php).
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    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="0b6c0464-a1e2-4be6-890e-aac9fb68928f" href="/node/795">Pharmaceutical pollution to freshwaters</a> is a global problem that is poorly quantified. Mixtures of drugs in lakes, rivers, and streams can disrupt animal biology and behavior, algal growth, and other ecological processes – with harmful cascading effects.
    
    Lead author <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="4975f2f4-30f3-413a-ba96-dfa786c3bb2e" href="/node/2446">Megan Fork</a>, a postdoctoral research associate at Cary Institute of Ecosystem Studies, says, “Pharmaceuticals enter freshwaters through multiple pathways, including effluent from wastewater treatment and septic systems, as well as agricultural runoff. An important, but often overlooked contributor is aging and faulty wastewater infrastructure, which is common in many older cities.”
    
    For a year, weekly water samples were collected from six sites in Baltimore’s Gwynns Falls watershed. Fork explains, “Because Gwynns Falls streams don’t receive wastewater effluent, we were able to estimate annual loads of pharmaceutical pollution attributed to leaky pipes alone.” Sites represented a gradient of development, ranging from suburban to highly urban. The team also sampled a forested reference site to the northwest of the Gwynns Falls watershed.
    
    
    
    The Gwynns Falls watershed comprises a network of urban tributaries flowing into the Gwynns Falls stream; this stream empties into Baltimore’s Inner Harbor, which opens to the Chesapeake Bay. Credit: Wayne C. Zipperer / US Forest Service.
    
    
    
    Samples were screened for 92 pharmaceutical compounds. Across the seven study sites, 37 unique compounds were detected. The most common was the antibiotic trimethoprim. The highest concentration of pharmaceuticals was detected where the Gwynns Falls meets Baltimore’s Inner Harbor. Here, the painkiller acetaminophen was most prevalent. Drug concentrations were higher at more densely populated sites.
    
    To estimate the amount of pharmaceutical compounds that leaky pipes delivered to the watershed each year (the annual ‘load’), the team paired data on drug concentrations detected at the Gwynns Falls outlet with river discharge rates recorded by a USGS monitoring station at the site. Annual loads were calculated for nine pharmaceutical classes.
    
    The results: leaky pipes in the Gwynns Falls watershed deliver the equivalent of tens of thousands of doses of pharmaceutical compounds to Baltimore’s Inner Harbor; this includes 30,000 adult doses of antidepressants, 1,700 doses of antibiotics, and about 30,000 tablets of acetaminophen. Concentrations were environmentally relevant – at levels that could affect organisms’ behavior, biology, and other ecological processes – and highly variable, meaning aquatic organisms are exposed to a constantly changing mixture of compounds.
    
    Fork explains, “Establishing the loads of contaminants such as pharmaceuticals is important since low concentrations may mislead regulators and managers into thinking that they are insignificant. In Baltimore we are already seeing that stream-dwelling bacteria are resistant to common antibiotics, suggesting that low chronic exposures can result in significant effects on stream life.”
    
    
    
    Water samples are collected from the Gywnns Falls stream in Baltimore, Maryland. Credit: Benjamin Glass-Siegel / Baltimore Ecosystem Study.
    
    
    
    Next, the team calculated the annual watershed ‘mass balance’ for eight pharmaceutical classes. The goal: to reveal the pathways by which pharmaceutical compounds being consumed in the Gwynns Falls watershed enter the environment, and how these pathways differ among compounds.
    
    Mass balance calculations took into account data on: per capita wastewater volume, the quantity of pharmaceuticals consumed (estimated using national data on prescriptions, scaled to the population of the Gywnns Falls watershed), concentrations of drugs in sewage, the proportion of pharmaceutical compounds metabolized in the body versus the proportion excreted, the amount of pharmaceutical pollution removed by wastewater treatment, the amount that leaks, and the amount that enters the environment via treated wastewater plant effluent.
    
    Although the Gwynns Falls watershed does not receive wastewater treatment plant effluent, sewage produced in the Gwynns Falls watershed gets piped away for treatment in a nearby watershed. After treatment, this effluent is discharged into the Chesapeake Bay. This diverted sewage was included in the mass balance calculations.
    
    <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="2bcd75fd-bbec-4a80-9d5a-eda789981bb5" href="/node/44">Emma Rosi,</a> senior co-author and aquatic ecologist at Cary Institute, explains, “Our findings show that plants and animals exposed to sewage from leaky pipes are receiving a different mix of compounds than those exposed to wastewater treatment plant effluent. In the Gwynns Falls watershed, wastewater effluent is the main delivery pathway for antibiotics, while painkillers are more likely to enter the environment via leaking infrastructure. This sort of information is critical to assessing organisms’ exposure to different compounds and associated effects.”
    
    Reducing pharmaceutical inputs to freshwaters requires municipal investment in repairing old and damaged wastewater infrastructure, and upgrading wastewater treatment facilities to more effectively remove these contaminants. Quantifying annual loads of pharmaceuticals entering freshwaters, and identifying pathways of entry to the environment, can guide regulation and provide metrics to assess future pollution mitigation efforts.
    
    Rosi notes, “We estimate that nearly 1% of raw sewage originating in the Gwynns Falls watershed flows into the environment via leaking infrastructure. If we extrapolate our calculations to the entire Chesapeake Bay watershed, we estimate that approximately 11.7 billion liters of raw sewage may enter the Bay via leaks every year – carrying a range of pharmaceutical compounds that can affect aquatic organisms and disrupt ecosystem processes.”
    
    With Fork concluding, “Our findings underscore the ubiquity of drugs in freshwaters, and the need to examine and account for all pollution pathways, not just obvious ones like wastewater treatment plant effluent.”
    
    This research is a contribution to the <a data-entity-substitution="canonical" data-entity-type="node" data-entity-uuid="aa42c5e5-3d45-4ee4-a5f0-a505d4e0a13c" href="/node/200">Baltimore Ecosystem Study</a>, a Long Term Ecological Research site funded by the US National Science Foundation. For over 20 years, the Gwynns Falls study sites have been monitored for water pollution; this data adds to a growing body of research looking at emerging environmental contaminants.
    
    Citation
    
    <a href="https://doi.org/10.1021/acs.est.1c00379">Dosing the Coast: Leaking Sewage Infrastructure Delivers Large Annual Doses and Dynamic Mixtures of Pharmaceuticals to Urban Rivers</a>. Megan L. Fork, Jerker B. Fick, Alexander J. Reisinger, and Emma J. Rosi
    Environmental Science &amp; Technology Article ASAP. DOI: 10.1021/acs.est.1c00379
    
    Investigators
    
    Megan Fork, Cary Institute of Ecosystem Studies
    Jerker Fick, Umeå University
    Alexander Reisinger, University of Florida Gainesville
    Emma Rosi, Cary Institute of Ecosystem Studies
    
    Acknowledgements
    
    This work was funded by the National Science Foundation.
    
    
    Cary Institute of Ecosystem Studies is an independent nonprofit center for environmental research. Since 1983, our scientists have been investigating the complex interactions that govern the natural world and the impacts of climate change on these systems. Our findings lead to more effective management and policy actions and increased environmental literacy. Staff are global experts in the ecology of: cities, disease, forests, and freshwater.
    
    &nbsp;
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(Millbrook, NY) In Baltimore, Maryland, leaky sewage infrastructure delivers tens of thousands of human doses of pharmaceuticals to the Chesapeake Bay every year. So reports a new study in Environmental Science & Technology that monitored an urban stream network over a yearlong period. Drug concentrations detected were persistent, variable, and occurred at ecologically relevant levels.  

Pharmaceutical pollution to freshwaters is a global problem that is poorly quantified. Mixtures of drugs in lakes, rivers, and streams can disrupt animal biology and behavior, algal growth, and other ecological processes – with harmful cascading effects.

Lead author Megan Fork, a postdoctoral research associate at Cary Institute of Ecosystem Studies, says, “Pharmaceuticals enter freshwaters through multiple pathways, including effluent from wastewater treatment and septic systems, as well as agricultural runoff. An important, but often overlooked contributor is aging and faulty wastewater infrastructure, which is common in many older cities.”

For a year, weekly water samples were collected from six sites in Baltimore’s Gwynns Falls watershed. Fork explains, “Because Gwynns Falls streams don’t receive wastewater effluent, we were able to estimate annual loads of pharmaceutical pollution attributed to leaky pipes alone.” Sites represented a gradient of development, ranging from suburban to highly urban. The team also sampled a forested reference site to the northwest of the Gwynns Falls watershed.

The Gwynns Falls watershed comprises a network of urban tributaries flowing into the Gwynns Falls stream; this stream empties into Baltimore’s Inner Harbor, which opens to the Chesapeake Bay. Credit: Wayne C. Zipperer / US Forest Service.

Samples were screened for 92 pharmaceutical compounds. Across the seven study sites, 37 unique compounds were detected. The most common was the antibiotic trimethoprim. The highest concentration of pharmaceuticals was detected where the Gwynns Falls meets Baltimore’s Inner Harbor. Here, the painkiller acetaminophen was most prevalent. Drug concentrations were higher at more densely populated sites.

To estimate the amount of pharmaceutical compounds that leaky pipes delivered to the watershed each year (the annual ‘load’), the team paired data on drug concentrations detected at the Gwynns Falls outlet with river discharge rates recorded by a USGS monitoring station at the site. Annual loads were calculated for nine pharmaceutical classes.

The results: leaky pipes in the Gwynns Falls watershed deliver the equivalent of tens of thousands of doses of pharmaceutical compounds to Baltimore’s Inner Harbor; this includes 30,000 adult doses of antidepressants, 1,700 doses of antibiotics, and about 30,000 tablets of acetaminophen. Concentrations were environmentally relevant – at levels that could affect organisms’ behavior, biology, and other ecological processes – and highly variable, meaning aquatic organisms are exposed to a constantly changing mixture of compounds.

Fork explains, “Establishing the loads of contaminants such as pharmaceuticals is important since low concentrations may mislead regulators and managers into thinking that they are insignificant. In Baltimore we are already seeing that stream-dwelling bacteria are resistant to common antibiotics, suggesting that low chronic exposures can result in significant effects on stream life.”

Water samples are collected from the Gywnns Falls stream in Baltimore, Maryland. Credit: Benjamin Glass-Siegel / Baltimore Ecosystem Study.

Next, the team calculated the annual watershed ‘mass balance’ for eight pharmaceutical classes. The goal: to reveal the pathways by which pharmaceutical compounds being consumed in the Gwynns Falls watershed enter the environment, and how these pathways differ among compounds.

Mass balance calculations took into account data on: per capita wastewater volume, the quantity of pharmaceuticals consumed (estimated using national data on prescriptions, scaled to the population of the Gywnns Falls watershed), concentrations of drugs in sewage, the proportion of pharmaceutical compounds metabolized in the body versus the proportion excreted, the amount of pharmaceutical pollution removed by wastewater treatment, the amount that leaks, and the amount that enters the environment via treated wastewater plant effluent.

Although the Gwynns Falls watershed does not receive wastewater treatment plant effluent, sewage produced in the Gwynns Falls watershed gets piped away for treatment in a nearby watershed. After treatment, this effluent is discharged into the Chesapeake Bay. This diverted sewage was included in the mass balance calculations.

Emma Rosi, senior co-author and aquatic ecologist at Cary Institute, explains, “Our findings show that plants and animals exposed to sewage from leaky pipes are receiving a different mix of compounds than those exposed to wastewater treatment plant effluent. In the Gwynns Falls watershed, wastewater effluent is the main delivery pathway for antibiotics, while painkillers are more likely to enter the environment via leaking infrastructure. This sort of information is critical to assessing organisms’ exposure to different compounds and associated effects.”

Reducing pharmaceutical inputs to freshwaters requires municipal investment in repairing old and damaged wastewater infrastructure, and upgrading wastewater treatment facilities to more effectively remove these contaminants. Quantifying annual loads of pharmaceuticals entering freshwaters, and identifying pathways of entry to the environment, can guide regulation and provide metrics to assess future pollution mitigation efforts.

Rosi notes, “We estimate that nearly 1% of raw sewage originating in the Gwynns Falls watershed flows into the environment via leaking infrastructure. If we extrapolate our calculations to the entire Chesapeake Bay watershed, we estimate that approximately 11.7 billion liters of raw sewage may enter the Bay via leaks every year – carrying a range of pharmaceutical compounds that can affect aquatic organisms and disrupt ecosystem processes.”

With Fork concluding, “Our findings underscore the ubiquity of drugs in freshwaters, and the need to examine and account for all pollution pathways, not just obvious ones like wastewater treatment plant effluent.”

This research is a contribution to the Baltimore Ecosystem Study, a Long Term Ecological Research site funded by the US National Science Foundation. For over 20 years, the Gwynns Falls study sites have been monitored for water pollution; this data adds to a growing body of research looking at emerging environmental contaminants.

Citation

Dosing the Coast: Leaking Sewage Infrastructure Delivers Large Annual Doses and Dynamic Mixtures of Pharmaceuticals to Urban Rivers. Megan L. Fork, Jerker B. Fick, Alexander J. Reisinger, and Emma J. Rosi
Environmental Science & Technology Article ASAP. DOI: 10.1021/acs.est.1c00379

Investigators

Megan Fork, Cary Institute of Ecosystem Studies
Jerker Fick, Umeå University
Alexander Reisinger, University of Florida Gainesville
Emma Rosi, Cary Institute of Ecosystem Studies

Acknowledgements

This work was funded by the National Science Foundation.


Cary Institute of Ecosystem Studies is an independent nonprofit center for environmental research. Since 1983, our scientists have been investigating the complex interactions that govern the natural world and the impacts of climate change on these systems. Our findings lead to more effective management and policy actions and increased environmental literacy. Staff are global experts in the ecology of: cities, disease, forests, and freshwater.

 

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