Cookies help us run our site more efficiently.

By clicking “Accept”, you agree to the storing of cookies on your device to enhance site navigation, analyze site usage, and assist in our marketing efforts. View our Privacy Policy for more information or to customize your cookie preferences.

Mapping Earth’s Waterways From Space: How SWOT Transforms Flood Forecasting

News Feed
Monday, June 3, 2024

Designed to make the first-ever global survey of Earth’s surface water, the Surface Water and Ocean Topography, or SWOT, satellite will collect detailed measurements of how water bodies on Earth change over time. Credit: NASA/JPL-CaltechThe SWOT satellite, a collaborative effort between NASA and CNES, is revolutionizing flood prediction by providing comprehensive data on water heights across nearly all water surfaces on Earth.Rivers, lakes, and reservoirs act like our planet’s arteries, carrying life-sustaining water through vast interconnected networks. When Earth’s water cycle runs too fast, flooding can result, endangering lives and property. That risk is increasing as climate change alters precipitation patterns and more people are living in flood-prone areas worldwide.Scientists and water managers use many types of data to predict flooding. This year they have a new tool at their disposal: freshwater data from the Surface Water and Ocean Topography (SWOT) satellite. The observatory, a collaboration between NASA and the French space agency, CNES (Centre National d’Études Spatiales), is measuring the height of nearly all water surfaces on Earth. SWOT was designed to measure every major river wider than about 300 feet (100 meters), and preliminary results suggest it may be able to observe much smaller rivers. Flooding on the Souris River inundated this community in North Dakota in 2011. The U.S.-French SWOT satellite is giving scientists and water managers a new tool to look at floods in 3D, information that can improve predictions of where and how often flooding will occur. Credit: North Dakota State Water CommissionStream gauges can accurately measure water levels in rivers, but only at individual locations, often spaced far apart. Many rivers have no stream gauges at all, particularly in countries without resources to maintain and monitor them. Gauges can also be disabled by floods and are unreliable when water overtops the riverbank and flows into areas they cannot measure.SWOT provides a more comprehensive, 3D look at floods, measuring their height, width, and slope. Scientists can use this data to better track how floodwaters pulse across a landscape, improving predictions of where flooding will occur and how often.Flooding from monsoon rains covers a wide region of northeast Bangladesh in this October 8, 2023, image showing data from SWOT. The U.S.-French satellite is the first to provide timely, precise water surface elevation information over entire regions at high resolution, enabling improved flooding forecasts. Credit: NASA/JPL-Caltech/UNC-Chapel Hill/Google EarthBuilding a Better Flood ModelOne effort to incorporate SWOT data into flood models is led by J. Toby Minear of the Cooperative Institute for Research in Environmental Sciences (CIRES) in Boulder, Colorado. Minear is investigating how to incorporate SWOT data into the National Oceanic and Atmospheric Administration’s National Water Model, which predicts the potential for flooding and its timing along U.S. rivers. SWOT freshwater data will fill in spatial gaps between gauges and help scientists like Minear determine the water levels (heights) at which flooding occurs at specific locations along rivers.SWOT river slope data — like that depicted here for California’s Sacramento River — can improve predictions of how fast water flows through rivers and off landscapes. To calculate slope, scientists subtract the lower water elevation (right) from the higher one (left) and divide by segment length. Credit: NASA/JPL-Caltech/UNC-Chapel Hill/Google EarthHe expects SWOT to improve National Water Model data in multiple ways. For example, it will provide more accurate estimates of river slopes and how they change with streamflow. Generally speaking, the steeper a river’s slope, the faster its water flows. Hydrologic modelers use slope data to predict the speed water moves through a river and off a landscape.SWOT will also help scientists and water managers quantify how much water lakes and reservoirs can store. While there are about 90,000 relatively large U.S. reservoirs, only a few thousand of them have water-level data that’s incorporated into the National Water Model. This limits scientists’ ability to know how reservoir levels relate to surrounding land elevations and potential flooding. SWOT is measuring tens of thousands of U.S. reservoirs, along with nearly all natural U.S. lakes larger than about two football fields combined.Some countries, including the U.S., have made significant investments in river gauging networks and detailed local flood models. But in Africa, South Asia, parts of South America, and the Arctic, there’s little data for lakes and rivers. In such places, flood risk assessments often rely on rough estimates. Part of SWOT’s potential is that it will allow hydrologists to fill these gaps, providing information on where water is stored on landscapes and how much is flowing through rivers.UNC-Chapel Hill doctoral student Marissa Hughes levels a tripod to install a GPS unit to precisely measure the water surface elevation of a segment of New Zealand’s Waimakariri River. The measurements were used to calibrate and validate data from the U.S.-French SWOT satellite. Credit: Alyssa LaFaro/UNC ResearchTamlin Pavelsky, NASA’s SWOT freshwater science lead and a researcher at the University of North Carolina at Chapel Hill, says SWOT can help address the growing threat of flooding from extreme storms fueled by climate change. “Think about Houston and Hurricane Harvey in 2017,” he said. “It’s very unlikely we would have seen 60 inches of rain from one storm without climate change. Societies will need to update engineering design standards and floodplain maps as intense precipitation events become more common.”Pavelsky says these changes in Earth’s water cycle are altering society’s assumptions about floods and what a floodplain is. “Hundreds of millions of people worldwide will be at increased risk of flooding in the future as rainfall events become increasingly intense and population growth occurs in flood-prone areas,” he added.SWOT flood data will have other practical applications. For example, insurers can use models informed by SWOT data to improve flood hazard maps to better estimate an area’s potential damage and loss risks. A major reinsurance company, FM Global, is among SWOT’s 40 current early adopters — a global community of organizations working to incorporate SWOT data into their decision-making activities.“Companies like FM Global and government agencies like the U.S. Federal Emergency Management Agency can fine tune their flood models by comparing them to SWOT data,” Pavelsky said. “Those better models will give us a more accurate picture of where and how often floods are likely to happen.”More About the MissionLaunched on December 16, 2022, from Vandenberg Space Force Base in central California, SWOT is now in its operations phase, collecting data that will be used for research and other purposes.SWOT was jointly developed by NASA and CNES, with contributions from the Canadian Space Agency (CSA) and the UK Space Agency. NASA’s Jet Propulsion Laboratory, managed for the agency by Caltech in Pasadena, California, leads the project’s U.S. component. For the flight system payload, NASA provided the KaRIn instrument, a GPS science receiver, a laser retroreflector, a two-beam microwave radiometer, and NASA instrument operations. CNES provided the Doppler Orbitography and Radioposition Integrated by Satellite (DORIS) system, dual frequency Poseidon altimeter (developed by Thales Alenia Space), KaRIn radio-frequency subsystem (together with Thales Alenia Space and with support from the UK Space Agency), the satellite platform, and ground operations. CSA provided the KaRIn high-power transmitter assembly. NASA provided the launch vehicle and the agency’s Launch Services Program, based at Kennedy Space Center, and managed the associated launch services.

The SWOT satellite, a collaborative effort between NASA and CNES, is revolutionizing flood prediction by providing comprehensive data on water heights across nearly all water...

SWOT Satellite in Earth Orbit

Designed to make the first-ever global survey of Earth’s surface water, the Surface Water and Ocean Topography, or SWOT, satellite will collect detailed measurements of how water bodies on Earth change over time. Credit: NASA/JPL-Caltech

The SWOT satellite, a collaborative effort between NASA and CNES, is revolutionizing flood prediction by providing comprehensive data on water heights across nearly all water surfaces on Earth.

Rivers, lakes, and reservoirs act like our planet’s arteries, carrying life-sustaining water through vast interconnected networks. When Earth’s water cycle runs too fast, flooding can result, endangering lives and property. That risk is increasing as climate change alters precipitation patterns and more people are living in flood-prone areas worldwide.

Scientists and water managers use many types of data to predict flooding. This year they have a new tool at their disposal: freshwater data from the Surface Water and Ocean Topography (SWOT) satellite. The observatory, a collaboration between NASA and the French space agency, CNES (Centre National d’Études Spatiales), is measuring the height of nearly all water surfaces on Earth. SWOT was designed to measure every major river wider than about 300 feet (100 meters), and preliminary results suggest it may be able to observe much smaller rivers.

Souris River Flooding in North Dakota

Flooding on the Souris River inundated this community in North Dakota in 2011. The U.S.-French SWOT satellite is giving scientists and water managers a new tool to look at floods in 3D, information that can improve predictions of where and how often flooding will occur. Credit: North Dakota State Water Commission

Stream gauges can accurately measure water levels in rivers, but only at individual locations, often spaced far apart. Many rivers have no stream gauges at all, particularly in countries without resources to maintain and monitor them. Gauges can also be disabled by floods and are unreliable when water overtops the riverbank and flows into areas they cannot measure.

SWOT provides a more comprehensive, 3D look at floods, measuring their height, width, and slope. Scientists can use this data to better track how floodwaters pulse across a landscape, improving predictions of where flooding will occur and how often.

Flooding From Monsoon Rains in Northeast Bangladesh

Flooding from monsoon rains covers a wide region of northeast Bangladesh in this October 8, 2023, image showing data from SWOT. The U.S.-French satellite is the first to provide timely, precise water surface elevation information over entire regions at high resolution, enabling improved flooding forecasts. Credit: NASA/JPL-Caltech/UNC-Chapel Hill/Google Earth

Building a Better Flood Model

One effort to incorporate SWOT data into flood models is led by J. Toby Minear of the Cooperative Institute for Research in Environmental Sciences (CIRES) in Boulder, Colorado. Minear is investigating how to incorporate SWOT data into the National Oceanic and Atmospheric Administration’s National Water Model, which predicts the potential for flooding and its timing along U.S. rivers. SWOT freshwater data will fill in spatial gaps between gauges and help scientists like Minear determine the water levels (heights) at which flooding occurs at specific locations along rivers.

SWOT California Sacramento River Slope Data

SWOT river slope data — like that depicted here for California’s Sacramento River — can improve predictions of how fast water flows through rivers and off landscapes. To calculate slope, scientists subtract the lower water elevation (right) from the higher one (left) and divide by segment length. Credit: NASA/JPL-Caltech/UNC-Chapel Hill/Google Earth

He expects SWOT to improve National Water Model data in multiple ways. For example, it will provide more accurate estimates of river slopes and how they change with streamflow. Generally speaking, the steeper a river’s slope, the faster its water flows. Hydrologic modelers use slope data to predict the speed water moves through a river and off a landscape.

SWOT will also help scientists and water managers quantify how much water lakes and reservoirs can store. While there are about 90,000 relatively large U.S. reservoirs, only a few thousand of them have water-level data that’s incorporated into the National Water Model. This limits scientists’ ability to know how reservoir levels relate to surrounding land elevations and potential flooding. SWOT is measuring tens of thousands of U.S. reservoirs, along with nearly all natural U.S. lakes larger than about two football fields combined.

Some countries, including the U.S., have made significant investments in river gauging networks and detailed local flood models. But in Africa, South Asia, parts of South America, and the Arctic, there’s little data for lakes and rivers. In such places, flood risk assessments often rely on rough estimates. Part of SWOT’s potential is that it will allow hydrologists to fill these gaps, providing information on where water is stored on landscapes and how much is flowing through rivers.

Marissa Hughes Levels Tripod

UNC-Chapel Hill doctoral student Marissa Hughes levels a tripod to install a GPS unit to precisely measure the water surface elevation of a segment of New Zealand’s Waimakariri River. The measurements were used to calibrate and validate data from the U.S.-French SWOT satellite. Credit: Alyssa LaFaro/UNC Research

Tamlin Pavelsky, NASA’s SWOT freshwater science lead and a researcher at the University of North Carolina at Chapel Hill, says SWOT can help address the growing threat of flooding from extreme storms fueled by climate change. “Think about Houston and Hurricane Harvey in 2017,” he said. “It’s very unlikely we would have seen 60 inches of rain from one storm without climate change. Societies will need to update engineering design standards and floodplain maps as intense precipitation events become more common.”

Pavelsky says these changes in Earth’s water cycle are altering society’s assumptions about floods and what a floodplain is. “Hundreds of millions of people worldwide will be at increased risk of flooding in the future as rainfall events become increasingly intense and population growth occurs in flood-prone areas,” he added.

SWOT flood data will have other practical applications. For example, insurers can use models informed by SWOT data to improve flood hazard maps to better estimate an area’s potential damage and loss risks. A major reinsurance company, FM Global, is among SWOT’s 40 current early adopters — a global community of organizations working to incorporate SWOT data into their decision-making activities.

“Companies like FM Global and government agencies like the U.S. Federal Emergency Management Agency can fine tune their flood models by comparing them to SWOT data,” Pavelsky said. “Those better models will give us a more accurate picture of where and how often floods are likely to happen.”

More About the Mission

Launched on December 16, 2022, from Vandenberg Space Force Base in central California, SWOT is now in its operations phase, collecting data that will be used for research and other purposes.

SWOT was jointly developed by NASA and CNES, with contributions from the Canadian Space Agency (CSA) and the UK Space Agency. NASA’s Jet Propulsion Laboratory, managed for the agency by Caltech in Pasadena, California, leads the project’s U.S. component. For the flight system payload, NASA provided the KaRIn instrument, a GPS science receiver, a laser retroreflector, a two-beam microwave radiometer, and NASA instrument operations. CNES provided the Doppler Orbitography and Radioposition Integrated by Satellite (DORIS) system, dual frequency Poseidon altimeter (developed by Thales Alenia Space), KaRIn radio-frequency subsystem (together with Thales Alenia Space and with support from the UK Space Agency), the satellite platform, and ground operations. CSA provided the KaRIn high-power transmitter assembly. NASA provided the launch vehicle and the agency’s Launch Services Program, based at Kennedy Space Center, and managed the associated launch services.

Read the full story here.
Photos courtesy of

Helene’s health risks include contaminated water and mold: Doctors

Floodwater with sewage or other harmful contaminants in it can lead to infectious diseases, according to an epidemiologist.

(NewsNation) — As authorities in the path of Hurricane Helene continue to hunt for missing people, the dangers for those who survived the wind and flooding are many, including contaminated water and mold. “Symptoms from infection with waterborne pathogens can include gastrointestinal upset, diarrhea, nausea, vomiting, fever, and headache,” said Alasdair Cohen, an assistant professor of environmental epidemiology with the Virginia-Maryland College of Veterinary Medicine. The danger is worse for anyone with any sort of skin break, even a small scrape or a condition like eczema. “Floodwater with sewage or other harmful contaminants in it can lead to infectious diseases, particularly among people who are already ill, immunocompromised or have open wounds,” epidemiology professor Jennifer Horney at the University of Delaware wrote on the nonprofit news website The Conversation. In some regions, damaged water treatment plants may not be operational for weeks. A lack of power means that private wells, which require electricity to pump and filter the water, are not a reliable source of safe water. Another dangerous legacy of Helene’s rain and flooding is mold, which may be especially dangerous to people who rush to clean their homes of storm damage. “There are multiple health effects from mold exposure,” said Dr. Colin Swenson of Atlanta’s Emory University. “Probably the best known are those with asthma and other sorts of airway-based diseases,” he told The Atlanta Journal-Constitution. “Mold can enter your home through open doorways, windows, vents, and heating and air conditioning systems,” according to the Centers for Disease Control and Prevention. “Mold in the air outside can also attach itself to clothing, shoes, and pets (and) can and be carried indoors." The site offers several tips on how to clean mold but stresses that “if you see or smell mold, you should remove it. You do not need to know the type of mold. If mold is growing in your home, you need to clean up the mold and fix the moisture problem.” Swenson adds that while you might not see any mold, your sense of smell will tell the story. “The best single way to determine if you have mold in the home is ‘the nose knows’ that sort of musty odor that the mold gives off. These are volatile, organic compounds that can oftentimes predate the development of any visual signs,” he said.

Thousands without clean water across U.S. Southeast, 1 week on from hurricane hitting Florida

Hurricane Helene's abating floodwaters have enabled residents across storm-hit Southeastern states to return home, but health officials warn survivors now face threats including contaminated water and mold.The big picture: More than 180 storm-related deaths have been confirmed as teams search for missing people, thousands of people still have no power and are without clean water access one week on from the hurricane making landfall in Florida and dumping flooding rains across the Southeast.Critical materials like new water pipes continue to arrive in Asheville and are in the process of being connected to our water service system. We are grateful to our state, federal and private sector partners for their critical assistance. pic.twitter.com/myR19mHbbD— City of Asheville (@CityofAsheville) October 2, 2024 "Access to safe and potable water remains a top concern in Western North Carolina," per a Tuesday statement from the N.C. Department of Health and Human Services that noted about 160 boil water advisories were in effect and 27 water plants closed and not producing water due to the storm. Asheville's nearly 100,000 residents may have to wait "weeks" for clean water, city officials said. Meanwhile, boil water and conservation notices were also in effect in Florida, Georgia, Tennessee and Virginia. Thousands of people were estimated Threat level: "Access to clean water is one of the most urgent health concerns after a flood. People need water for drinking, preparing food, cleaning, bathing, even flushing toilets. Contact with contaminated water can cause serious illnesses," wrote disaster epidemiologist Jennifer Horney in The Conversation on Wednesday."Floodwater with sewage or other harmful contaminants in it can lead to infectious diseases, particularly among people who are already ill, immunocompromised or have open wounds," added Horney, who's originally from N.C. and now works as an epidemiology professor at the University of Delaware.Symptoms from infection with waterborne pathogens "can include gastrointestinal upset, diarrhea, nausea, vomiting, fever, and headache," according to a statement from Alasdair Cohen, an assistant professor of environmental epidemiology with the Virginia-Maryland College of Veterinary Medicine.Floodwaters pose risks like gastrointestinal illness, dehydration, and carbon monoxide poisoning from improper generator use, per a statement from Julia Gohlke an associate professor in the Department of Population Health Sciences at the Virginia-Maryland College of Veterinary Medicine. "Pregnant women face an increased risk of premature labor or preterm birth, and long-term mold exposure can exacerbate asthma."The bottom line: "Flooded regions will need long-term help," Horney notes.More from Axios:Hurricane Helene damages could hit $35 billionStudy reveals thousands of long-term deaths from hurricanesView from space shows path of power outages from Hurricane Helene

Hurricane Helene's abating floodwaters have enabled residents across storm-hit Southeastern states to return home, but health officials warn survivors now face threats including contaminated water and mold.The big picture: More than 180 storm-related deaths have been confirmed as teams search for missing people, thousands of people still have no power and are without clean water access one week on from the hurricane making landfall in Florida and dumping flooding rains across the Southeast.Critical materials like new water pipes continue to arrive in Asheville and are in the process of being connected to our water service system. We are grateful to our state, federal and private sector partners for their critical assistance. pic.twitter.com/myR19mHbbD— City of Asheville (@CityofAsheville) October 2, 2024 "Access to safe and potable water remains a top concern in Western North Carolina," per a Tuesday statement from the N.C. Department of Health and Human Services that noted about 160 boil water advisories were in effect and 27 water plants closed and not producing water due to the storm. Asheville's nearly 100,000 residents may have to wait "weeks" for clean water, city officials said. Meanwhile, boil water and conservation notices were also in effect in Florida, Georgia, Tennessee and Virginia. Thousands of people were estimated Threat level: "Access to clean water is one of the most urgent health concerns after a flood. People need water for drinking, preparing food, cleaning, bathing, even flushing toilets. Contact with contaminated water can cause serious illnesses," wrote disaster epidemiologist Jennifer Horney in The Conversation on Wednesday."Floodwater with sewage or other harmful contaminants in it can lead to infectious diseases, particularly among people who are already ill, immunocompromised or have open wounds," added Horney, who's originally from N.C. and now works as an epidemiology professor at the University of Delaware.Symptoms from infection with waterborne pathogens "can include gastrointestinal upset, diarrhea, nausea, vomiting, fever, and headache," according to a statement from Alasdair Cohen, an assistant professor of environmental epidemiology with the Virginia-Maryland College of Veterinary Medicine.Floodwaters pose risks like gastrointestinal illness, dehydration, and carbon monoxide poisoning from improper generator use, per a statement from Julia Gohlke an associate professor in the Department of Population Health Sciences at the Virginia-Maryland College of Veterinary Medicine. "Pregnant women face an increased risk of premature labor or preterm birth, and long-term mold exposure can exacerbate asthma."The bottom line: "Flooded regions will need long-term help," Horney notes.More from Axios:Hurricane Helene damages could hit $35 billionStudy reveals thousands of long-term deaths from hurricanesView from space shows path of power outages from Hurricane Helene

Hurricane Helene leaves thousands without clean water in its wake

Damage to sewage systems and pipes means widespread boil water notices and conservation orders could last weeksHurricane Helene left a path of devastation behind, with storm-ravaged areas struggling to access safe water for days because flooding damaged sewage systems, wastewater treatment plants, and pipes that deliver drinking water to residents in the affected areas.Boiling water advisories and water conservation orders are in place in counties in Florida, Georgia, Tennessee and Virginia. Continue reading...

Hurricane Helene left a path of devastation behind, with storm-ravaged areas struggling to access safe water for days because flooding damaged sewage systems, wastewater treatment plants, and pipes that deliver drinking water to residents in the affected areas.Boiling water advisories and water conservation orders are in place in counties in Florida, Georgia, Tennessee and Virginia.More than 160 boil water advisories were in effect in North Carolina as of Tuesday. On Sunday, officials in Asheville said that nearly 100,000 residents may not get access to water for weeks.“Extensive repairs are required to treatment facilities, underground and aboveground water pipes, and to roads that have washed away which are preventing water personnel from accessing parts of the system,” the city’s press release read.Some residents have resorted to bathing in creeks, and relying on water from streams to flush toilets, according to the Washington Post.Sydney Evans, senior science analyst at Environmental Working Group, said that “after catastrophic storms like Hurricane Helene, many water systems and private wells are compromised by dangerous contamination like bacteria and other pathogens, industrial pollutants and animal waste that pose an immediate threat to people’s health”.Many in the affected areas, particularly in the Appalachian region, rely on wells that require electricity to access drinking water. But in the aftermath of Helene, which made landfall last Thursday, more than 1 million people remain without power.“Now there are so many additional potential contaminants that may be present in water sources, especially water systems that use surface water,” Elin Betanzo, drinking water expert and president of Safe Water Engineering, said.“Boiling water is effective for addressing acute microbial contaminants, but this might be very difficult with the lack of power in many locations.”Betanzo added that camping drinking water filters and treatments may be another option in the short term.

Honeywell will fund cleanup of contaminated groundwater in San Fernando Valley, EPA says

The EPA said the facilities will treat groundwater in a part of the San Fernando Valley Superfund site, enabling the LADWP to use the water as part of its supplies.

Decades ago, chemicals from manufacturing plants seeped into the groundwater in the San Fernando Valley, contaminating the aquifer. As part of ongoing cleanup efforts, the federal Environmental Protection Agency has announced that the company Honeywell International Inc. has agreed to pay for building water treatment facilities in North Hollywood.The EPA said the facilities will treat groundwater in a portion of the San Fernando Valley Superfund site, enabling the Los Angeles Department of Water and Power to use the water as part of its supplies.The agency said in its announcement Tuesday that the agreement was reached after more than a decade of negotiations and that it “resulted from a cooperative process” involving the company, the EPA and LADWP.LADWP had previously announced in 2021 that Honeywell was funding and building treatment facilities to clean up groundwater in the San Fernando Valley.According to the EPA, Honeywell’s predecessors manufactured aircraft parts and other industrial equipment starting in the 1940s at a facility in North Hollywood known as the Bendix site. Regulators determined that operations at several industrial plants, including that site, caused the contamination of groundwater in a part of the Superfund site called the North Hollywood Operable Unit.The groundwater in the area is contaminated with harmful chemicals including trichloroethylene and perchloroethylene.Under the agreement, contaminated groundwater will be pumped, treated and delivered to LADWP. The purified water will be enough to meet the needs of about 144,000 L.A. residents, restoring a local source that will help boost local supplies, the EPA said.Martha Guzman, the EPA’s Pacific Southwest regional administrator, said the announcement “marks major progress on the cleanup of groundwater in the San Fernando Valley.”“This is a key step towards returning the aquifer to use as a drinking water source for the people of Los Angeles,” Guzman said.

Hillsboro voters will advise city whether to add fluoride to water supply

Fluoride is widely used to strengthen tooth enamel, but opponents say it can hurt children’s neurological development.

Hillsboro voters this fall will advise the city whether to add fluoride to the public water supply, weighing in on a mineral that’s widely used to strengthen tooth enamel but that opponents say can hurt children’s neurological development.Hillsboro pediatrician Beth Mossman spearheaded the effort to have city residents vote on the addition of fluoride. In June, the City Council approved placing non-binding advisory Measure 34-338 on the November ballot to ask for the community’s opinion on fluoridation.The measure has brought the fight over fluoride’s health impacts to the forefront. Arguments largely mirror those that erupted in Portland 11 years ago when a similar, highly controversial proposal appeared on the ballot. Voters ultimately rejected it 61% to 39%.Fluoride is added to drinking water in most U.S. water systems to help protect people’s teeth from decay. About 15,000 Hillsboro residents already receive fluoridated water from the Tualatin Valley Water District, which supplies areas east of Cornelius Pass Road and north of U.S. 26. But the remaining 92,000 city residents receive their water from the Hillsboro Water Department, which does not fluoridate the water.Should Measure 34-338 pass, Hillsboro Water Department Director Niki Iverson said her agency would follow the non-binding guidance and fluoridate the rest of the city’s water supply, unless regulations change or costs skyrocket. The department would spread the anticipated costs of around $4 million over at least four to five years and delay non-urgent projects to avoid raising rates, Iverson said.In addition to providing water to most Hillsboro residents, the department also serves the communities of Gaston and Cornelius.Organizations including the Centers for Disease Control and Prevention consider fluoride safe at low concentrations, and in most of the U.S., it’s added to drinking water at a concentration of 0.7 milligrams per liter. A notable exception is the city of Portland, the largest city in the U.S. without fluoridated water.Opponents of fluoridation point to a growing body of research showing that fluoride can have adverse effects on children’s IQ. And the Hillsboro vote is coming just as anti-fluoridation advocates notched a major win: A federal judge in San Francisco ruled Tuesday that the Environmental Protection Agency must further regulate fluoride in drinking water out of concerns about intellectual development.In Mossman’s eyes, adding fluoride to Hillsboro’s water is crucial for the tooth health of local children, including her patients. Her advocacy group, Healthy Teeth Hillsboro, has raised about $6,500 to support the measure, campaign finance records show.Last summer, Mossman saw two young children whose teeth had deteriorated to the point that their parents had to sell their car to pay for dental care. They lived less than a mile from homes that receive fluoridated water, she said. And if they’d lived across that border, she thinks their teeth wouldn’t have deteriorated so much.“So I got fired up,” Mossman said. “I went to the City Council, and I said, ‘Please help me with this. There’s no reason Hillsboro should not be fluoridated.’”To Mossman, opposing fluoridation is akin to embracing the anti-vaccine movement. Opponents of the measure, however, argue that fluoride poses too great a health risk to countenance.“What level of hazardous material do we want to put into any water supply?” asked Hillsboro resident Matthew Sztelle, the director of advocacy group Clean Water Hillsboro, which has raised about $5,500 to oppose the measure.Staci Whitman, a pediatric dentist in Portland who works with Hillsboro patients, agreed. She used to support fluoridation, but more than 10 years ago, she dove into the research and changed her mind. She no longer prescribes fluoride supplements for kids drinking non-fluoridated water, she said, because she doesn’t think the benefits of fluoride for teeth outweigh concerns that it could reduce children’s IQ.“Brain health trumps teeth,” Whitman said.No one disputes that at high concentrations, fluoride can have adverse health effects. High, sustained exposure can lead to skeletal fluorosis, a serious bone disease. And a recent meta-analysis by the federal government’s National Toxicology Program found an association between higher fluoride levels of 1.5 milligrams per liter or above and lower IQ. It noted, however, that it had insufficient data to draw conclusions about the impacts of drinking fluoridated water at 0.7 milligrams per liter.Jessica Steier, a Massachusetts-based public health scientist and founder of the podcast Unbiased Science, pointed out that the government report looked at fluoride levels significantly higher than what’s added to the water in the U.S. She said she does not consider standard fluoridated water a cause for concern: “There is absolutely no reason to panic.”But Ashley Malin, who researches the effect of fluoride exposure on neurodevelopmental outcomes at the University of Florida, said adverse effects can occur even at 0.7 milligrams of fluoride per liter. In particular, studies in areas with typical levels of water fluoridation have found associations between higher fluoride levels in pregnant women and lower IQ for their children, she said.“There are growing concerns now, particularly about the impacts on child development,” Malin said. “People are becoming more cautious.”Moreover, Malin said research generally shows that fluoride is best at preventing tooth decay when applied topically — for example, via a fluoridated toothpaste. She described the evidence for benefits from ingesting fluoride as weaker, though the American Dental Association supports the use of both topically applied and ingested fluoride. Steier said the data are mixed, but pointed to research, including a 2018 federal government-funded study, that showed ingesting fluoride does provide benefits for children.Opponents of fluoridation in Hillsboro argue that taking fluoride should be a question of choice. If individual people want to use fluoride for tooth health, they should take supplements or use fluoride toothpaste rather than putting it in the entire city’s drinking water, said Sztelle of Clean Water Hillsboro.But to Mossman, leaving fluoride out of the water supply poses an equity issue. Wealthy parents might be able to take their children to the dentist regularly and provide them with fluoride supplements, but lower-income parents working multiple jobs can’t always afford preventative dental care or ensure their kids have access to fluoride.Fluoridation has a long history of contention in the Portland area. Portland voted to fluoridate in 1978 but overturned that vote two years later. In Washington County, Beaverton, Forest Grove and the Tualatin Valley Water District — minus the Metzger Water District — fluoridate their water.Hillsboro, meanwhile, hasn’t voted on fluoridation since the 1950s. In 1952, residents voted in favor of adding fluoride before rejecting that decision in another vote just one year later. A community group pushed for fluoridation in 2002, but faced opposition. No vote took place then, Iverson said, and she’s not sure how public sentiment has shifted over the past 70 years.“We don’t want to make a shift without really getting that information back from the community,” Iverson said.— Aviva Bechky covers politics and education for The Oregonian/OregonLive. They can be reached at abechky@oregonian.com or on X at @avivabechky.Our journalism needs your support. Subscribe today to OregonLive.com.

Suggested Viewing

Join us to forge
a sustainable future

Our team is always growing.
Become a partner, volunteer, sponsor, or intern today.
Let us know how you would like to get involved!

CONTACT US

sign up for our mailing list to stay informed on the latest films and environmental headlines.

Subscribers receive a free day pass for streaming Cinema Verde.
Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.