EPA Scientists Participate in Study to Determine Causes of Poor Air Quality in Utah Valleys

By Ann Brown and Karen Stewart

Winter in Utah brings to mind crystal clear blue skies, snow-capped mountains, and a long ski season. But during the winter in Utah’s northern valleys, cold air inversions trap pollution emitted from multiple sources, including vehicles, industry, and agriculture. This allows for the mixing of atmospheric chemicals that leads to the formation of PM2.5, which is harmful to health at high levels.

The area’s more than two million residents experience levels that exceed air quality standards an average of 18 days during the winter. It has contributed to a 42 percent higher rate of emergency room visits for asthma and a 4.5 percent increase in the risk for coronary events like heart attacks.

EPA research trailer set up in the snowy mountains

EPA scientists packed up their research trailer with air monitoring instruments and traveled to Logan, Utah to assist with the study.

In January, EPA scientists packed up their research trailer with air monitoring instruments and traveled to Utah to assist in determining how to solve the area’s air pollution problem. They are participating in the Utah Winter Fine Particle Study, one of the most comprehensive efforts to date to analyze the area’s pollutants and determine the chemical processes in the atmosphere that lead to the formation of PM2.5. The study is being conducted by the Utah Department of Environmental Quality, National Oceanic and Atmospheric Administration (NOAA), and other research organizations.

Starting this week, EPA and its partners in the study are taking daily measurements of air pollutants in three valleys using sophisticated ground-based instruments and remote sensing monitors. EPA scientists are providing their expertise in air quality measurement and have developed new and advanced technology to better monitor air pollutants. At the same time, NOAA’s research aircraft is flying over the region to measure air pollutants in the upper atmosphere.

The study will help to identify key emission sources and evaluate other factors—such as meteorology, geography, snow cover, and time of day—that may play a role in the formation of PM2.5. Once data is collected, Utah can use the information to determine the most effective strategies to reduce PM2.5 levels during the winter months and improve air quality for public health. The study is also expected to help other states with similar mountain valleys make decisions on how to protect air quality for their residents.

About the Authors:

Ann Brown is the communications lead for EPA’s Air, Climate, and Energy Research Program

Karen Stewart is an Oak Ridge Associated University contractor with EPA’s National Exposure Research Laboratory.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Taking Air Sensors to Communities

By Joel Creswell

When I read about air quality in the news, it’s often described as a large scale problem where entire cities or states are being affected. While it’s important to think about these problems on a larger scale, I often wonder more about what’s happening in my neighborhood. Does the air I breathe while walking my dog down a busy street affect my health? What about if there is construction on my block or an industrial facility down the road? After all, what I really want to know about is what I’m being exposed to–something that information about regional air quality doesn’t fully capture.

Air Sensor with Briefcase that says citizen science toolbox EPA has a team of people working to make low-cost tools for community and personal air pollution monitoring more accessible. They have produced a multitude of resources to help people find the right tool to use and to make sure they’re using it correctly. These include the Air Sensor Toolbox for Citizen Scientists, air sensor performance evaluations, and a set of curriculum materials for teachers on air quality and climate change. EPA also recently awarded six community air monitoring grants to organizations around the country addressing the challenges of using low-cost tools to monitor local air quality.

two people learning about air sensors

Demonstrating air sensors at the 2016 Summit to Revitalize Vulnerable Communities.

Aside from grant funding, one of the best ways we can help individuals understand their exposure to air pollution is to meet with community leaders and help them address their air quality monitoring needs. I had just such an opportunity recently, when I attended the 2016 Summit to Revitalize Vulnerable Communities. My colleague Dan Bator, an Environmental Health Fellow for the Association of Schools and Programs of Public Health, and I demonstrated two low-cost monitoring technologies for airborne fine particulate matter. One was an air sensor for educational purposes only (pictured) that you can build yourself using these simple instructions and parts you can buy online. The other was the AirBeam, an off-the-shelf device developed by the non-profit group HabitatMap. Over the course of an evening, Dan and I spoke to numerous community leaders about how low-cost air sensors work and how they can measure air quality in communities and provide data to address environmental justice issues.

The problems described by community leaders varied. One was worried about the volume of traffic from a nearby port while children are going to and from school. One was concerned about industrial facilities. Another was interested in the impacts of a highway in her community. All were excited to learn that there were tools they could use to conduct their own air quality monitoring. These low-cost air quality monitors are not as accurate as the high-precision instruments used for regional and national monitoring, but the ability to monitor air quality at the local level empowers communities to address their concerns with real data.

Measuring my own air quality is important to me too. I built a particulate matter sensor using the instructions above. I’ve used it to measure the air inside my house and on my block. This gives me an idea of when pollution around me is high and when I should think about reducing my exposure, such as avoiding strenuous exercise outdoors. To help me understand my sensor readings and what actions to take, EPA has launched a pilot project to develop a scale for air sensors that provide data in short time increments. I also check the regional air quality forecast on AirNow.gov. Both can help me protect my health.

About the author: Joel Creswell is an environmental chemist and a AAAS Fellow on the EPA Office of Research and Development’s Innovation Team. Prior to coming to EPA, he worked on developing environmental trace metals analyzers for a scientific instrument company.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

EPA Brings a Low-Cost Air Sensor Network to Memphis

By Michaela Burns

air sensors on top of building overlooking memphis

Sensors installed at the Memphis Area Transit Authority facilities.

Outdoor air quality can vary from neighborhood to neighborhood within the same city. All sorts of things can contribute to this variation, including traffic patterns, local industry, and even the way air moves between buildings.

Communities are increasingly interested in learning more about what pollutants are in the air.  Knowing about the air quality in your community can help you decide what actions to take to protect your health. That is where new air sensors come into play. They are low-cost, highly portable, and offer new ways to measure air quality in and around a community.

However, this new monitoring technology may not be as precise as more traditional technology used by state and federal governments for regulation. How can scientists use data from these sensors, even if they are not as accurate as traditional models?

To help answer this question, EPA is collaborating with the Shelby County Health Department and the Memphis Area Transit Authority to conduct the CitySpace Air Sensor Network project. EPA researchers will install and field test a city-wide-network of low-cost sensors to measure air pollution across the greater Memphis area, which includes counties in Tennessee, Arkansas, and Mississippi.

The goal of the CitySpace project is to examine the value of using a low-cost air sensor network to estimate the distribution of local air quality conditions and how emerging technologies perform in this type of research.

In October and November, researchers installed air sensor pods at locations in the greater Memphis area based on the input of local communities and other local stakeholders.  Sensors are located in neighborhoods, industrial areas, and rural settings. The sensors use emerging technologies that allow environmental data to be measured and instantaneously streamed to a secure EPA website.

All of these sensors will collect data on particulate matter (PM), a common air pollutant, and meteorological conditions such as temperature, humidity, and wind patterns.

Want to know one of the best parts of the study? A majority of the air sensors are 100 percent solar powered and self-sustainable.  They won’t require a lot inspection or maintenance, so scientists can focus on reviewing the data.

Hopefully, the work won’t stop in the Memphis metropolitan area. The success of this study could encourage other cities to use low-cost air sensor networks in evaluating local pollution.  Through air research efforts like this, EPA is helping to fulfill its mission to protect air quality.

Learn more about the City Space project:

Read the press release.

Read our factsheet on the CitySpace project.

About the Author: Michaela Burns is an Oak Ridge Associated Universities contractor and writer for the science communication team in EPA’s Office of Research and Development.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

DIY Air Monitoring: Check Out the Online Air Sensor Toolbox First

By Ann Brown

airsensoridEPA’s online Air Sensor Toolbox puts air measurement capabilities into the hands of citizen scientists. We recently updated the Toolbox with additional information and a new look for even easier navigation.

The latest version of the Toolbox provides a variety of resources on using air sensor technologies, including new sensor performance reference tables. One of the most popular resources is the Air Sensor Guidebook, a how-to for using of air sensors and what to consider before getting started with a citizen science project. In addition, the Toolbox includes scientific reports on air sensor monitors that undergo testing and evaluation by EPA. Technical documents on operating procedures also are available.

Want to know what your monitor readings mean? The Toolbox also offers some guidance on how to interpret one-minute readings from air sensors. EPA has launched a pilot project to test a “sensor scale” for two main air pollutants–ozone and particle pollution, also known as particulate matter. The pilot is designed to help people understand what the real-time data generated by these monitors means for air quality and what to consider when planning outdoor activities.

EPA supports the advancement of sensor technologies to help citizens assess local air quality and alert them to potential concerns. The gold standard system in monitoring capability, however, is EPA’s national monitoring network. These monitors are stationary and have undergone rigorous testing for their accuracy and reliability. The data from these monitors are used by EPA, states and others to implement the nation’s air quality standards. Portable air sensors, on the other hand, are still being tested for their reliability, but are being used to examine local air quality conditions and help promote environmental awareness activities

Before you jump into an air sensor monitoring project, it is good to do your homework. The Toolbox has resources to help make decisions on what and where to monitor, what sensors to use and how to evaluate data using a free RETIGO mapping tool developed by EPA.

Plan to spend a little money to purchase one or more air sensors or find a partner with resources:  sensors can cost a couple hundred dollars or more. And finally, you can get your daily air quality forecast and current air quality information for your area on the AirNow.gov website.

Visit the Toolbox

Learn about local air quality

 

About the author: Ann Brown is the communications lead for EPA’s Air, Climate, and Energy Research Program.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Air Sensors in Puerto Rico: Empowering a Community with Scientific Knowledge

By Christina Burchette

Drop a stone in a placid lake and you’ll notice that the impact of stone hitting water creates a ripple effect that spreads outward in gentle, incremental waves. It is a quiet but powerful image of something we all know to be true: a small act can generate great significance over time.

EPA researchers Ron Williams and Maribel Colón hope to start a ripple effect in Tallaboa-Encarnación, a small community that sits along the Southern Coast of Puerto Rico. Williams, Colón, and EPA’s Caribbean Environmental Protection Division will work with local community action group DISUR (Desarrollo Integral del Sur) to install and maintain low-cost air monitoring devices in Tallaboa-Encarnación. These devices  will help community members analyze local pollutant levels and better understand the local environmental conditions.

aerial view of the community

The Tallaboa/Encarnación community in Peñuelas, Puerto Rico was selected for this project and has an interest in collecting environmental data to support environmental awareness.

Researchers are currently building the community’s air monitors in EPA’s Research Triangle Park laboratory. The rectangular devices are about ten inches wide and will collect data on two common air pollutants: total volatile organic compounds (tVOC), which come from sources like vehicle exhaust, and fine particle pollution (PM2.5), which is emitted from motor vehicles, smokestacks, forest fires, and other sources that involve burning.

Once the devices are installed in the area, which is near a highway and several industrial facilities, community members and members of DISUR will participate in a day-long training using EPA’s Air Sensor Toolbox for Citizen Scientists to learn how to use the devices to collect, validate, and summarize environmental data.

Now more than ever, lower-cost air sensors are making air pollution monitoring citizen-accessible. People all over the world are collecting and analyzing local data to better understand air pollution in their communities and to make choices to protect their health. Our researchers’ involvement in the Tallaboa-Encarnación community project is especially important because the community would not have otherwise had access to these types of air monitoring tools and resources.

The small act of installing air monitoring sensors in such a remote community is about more than new air quality data. A community being able to take the fate of their health and environment into their own hands through scientific discovery is an amazing achievement—one that could create significant ripples in the pond of citizen science.

Learn more about this project by viewing our citizen science air monitoring in Puerto Rico fact sheet.

About the Author: Christina Burchette is an Oak Ridge Associated Universities contractor and writer for the science communication team in EPA’s Office of Research and Development.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Collaborating with Local Communities to Measure Air Pollution

By Michaela Burns

I am no stranger to air pollution. Since I grew up in New York City, my walk to school every morning put me in constant contact with car exhaust and smoke rising from the vendor stations that lined the sidewalks. None of these experiences ever struck me as odd. They were just a part of the city’s charm! We had the Empire State Building, the Statue of Liberty, and we had air pollution. On particularly smoggy days, when I could barely see the city from my window, I always comforted myself with the fact that it was a problem far out of my league. After all, I was just an ordinary kid, not a scientist — what could I do to help? Nothing of course.

Once I started working at EPA, I found out that I had been completely wrong. Managing air pollution is a big job, but it can be made easier when the whole community gets involved. We call it “citizen science” — where people without a background in research can use scientific tools to address problems in their environment. To support this fast-growing field, EPA’s Science to Achieve Results (STAR) program is funding six grants to evaluate how effective low-cost, portable air sensors are when used in communities.

APM4C Blog Picture

EPA researcher Eben Thoma adjusts an SPod monitor.

EPA grant winners at the Massachusetts Institute of Technology will use community-based air sensors to measure air quality and volcanic smog (“vog”) exposure on the Island of Hawai‘i (“the Big Island”). Up the coast at the University of Washington, researchers plan to deploy air sensors in student-directed studies examining heavy wood smoke impacts in their rural community. The team will work in partnership with Heritage University, whose students represent the local population of predominantly Yakama Nation and Latino immigrant families, to identify effective ways to communicate pollutant results to a broader audience. And this is just a sample of the diverse group of projects being done to help make air sensors more available to the public across the U.S. Other efforts include:

Carnegie Mellon University. Researchers will investigate the accuracy and reliability of existing air sensors, as well as their efficacy when put to use in Pittsburgh communities.

Kansas State University. Researchers will investigate if communities in South Chicago become more engaged in learning about their environment if they are provided with low-cost air sensors and the information generated by them.

Research Triangle Institute This research team will investigate how low-cost sensors can be used to help the Globeville, Elyria, Swansea (GES) community north of Denver, Colorado measure and understand data indicating the air quality in their neighborhood. The team will also evaluate the effectiveness of how information is presented to enable residents to understand their exposure to indoor and outdoor air pollutants and potentially empower them to take action to protect their health.

South Coast Air Quality Management District. This research team will provide local California communities with the knowledge necessary to select, use, and maintain low-cost, commercially available air monitoring sensors and to correctly interpret sensor data. The group will communicate the lessons learned to the public through a series of outreach activities.

By supporting the development and deployment of air monitoring technology, EPA is empowering ordinary citizens to take action against air pollution. Looking out for your community can be as easy as using our air sensor toolbox for citizen scientists to find out how to monitor the air quality in your neighborhood. With tools in reach, there’s no reason not to become a citizen scientist today!

About the author: Michaela Burns is an Oak Ridge Associated Universities contractor and writer for the science communication team in EPA’s Office of Research and Development.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Release of Community Air Monitoring Training Videos

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Community leaders and EPA presenters

By Amanda Kaufman

I have seen a fast expansion of next generation air pollution sensor technologies while working in the field of citizen science for the past three years. Small, hand-held air quality sensors are now commercially available and provide citizens the ability to plan, conduct, and understand local environmental air quality as never before. Many of these cost less than $1,000, making them more accessible for community groups and even individuals to purchase.

While the new sensor technologies generally do not provide regulatory-grade data, such devices are rapidly advancing to improve data quality and can be used to enhance monitoring efforts. They can be used in a wide range of situations including to investigate air quality concerns in local communities and to teach people about the importance of clean air to public health and the environment.

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EPA’s Kristen Benedict talks about sensor messaging

With the rapid growth of sensor technologies, there is a great demand for information on how to select the appropriate monitoring technology and use it to gather viable information. That is why I am pleased to announce the availability of six air monitoring training videos, developed to help citizen scientists conduct air quality monitoring projects. The videos feature presentations by EPA experts and a citizen science professional given at EPA’s Community Air Monitoring Training workshop on July 9, 2015.

EPA hosted the training workshop as a pilot venture to share tools used to conduct citizen science projects involving Next Generation Air Monitoring (NGAM) technology and to educate interested groups and individuals about best practices for successful air monitoring projects.

The videos are part of the Air Sensor Toolbox for Citizen Scientists and are intended to serve as resources for anyone interested in learning more about monitoring air quality. They provide short overviews (between 15-18 minutes in length) on topics that can help citizens plan and implement a successful air monitoring project. The topics and presenters are:

 

I was delighted to see the enthusiasm of the workshop attendees for the training and their desire to apply it to their local situation. It was contagious. Many who attended indicated they would go home and share key aspects of the training with their community groups to develop their own citizen science research plans.

With the availability of the training videos, more people will have access to the information provided on emerging technologies and community air monitoring. I see a bright future for citizen scientists as they become more aware of their local environment.

 

About the Author: Amanda Kaufman is an ORISE participant hosted by EPA’s National Exposure Research Laboratory.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Expanding the Village Green Project to Measure Local Air Quality

By Esteban Herrera, Gayle Hagler and John White

VG Station in Philadelphia, PA

Village Green Station in Philadelphia, PA

We have been busy for a few years with the Village Green Project, exploring new ways of measuring air pollution using next generation air quality technology put into a park bench. After testing our first Village Green station in Durham, N.C., we are now in the process of building and installing new stations with some design improvements and modifications.

The Village Green Project expansion is being made possible with the support of state and local partners across the country. Five new locations for stations have been selected through a nationwide proposal process open to local and state air monitoring agencies.

Today, EPA announced the partners and location for the new stations and held a ribbon-cutting ceremony in Philadelphia, Pa. for one of the five stations.

The Village Green Project has many benefits. It enables EPA’s scientists to further test their new measurement system, built into a park bench, and it provides an opportunity for the public and students to learn more about the technology and local air quality.

Each station provides data every minute on two common air pollutants – fine particle pollution and ozone – and weather conditions such as wind speed and direction, temperature, and relative humidity. The data are automatically streamed to the Village Green Project web page. You can access the data generated by stations as they come on line at www.epa.gov/villagegreen. As members of a team working on the Village Green Project at EPA, we have been doing a lot of coordination and tackled some difficult scientific challenges to get this project launched. But it is all coming together as we get the stations installed. We think it will be a great opportunity for educational outreach and to showcase some new capabilities for communities to learn more about their local air quality. These monitoring stations will enable communities to get information about nearby sources of air pollution that can impact local air quality.

VG Station in Washington, DC

Washington, DC

The five station locations being installed in 2015 as part of the local and state partnership are:

  • Philadelphia, Pa. – the station is located in Independence National Historical Park in Philadelphia owned by the National Park Service.
  • Washington, D.C. – the station is located in a children’s area at the Smithsonian National Zoological Park.
  • Kansas City, Kan.- the station is located outside of the new South Branch public library in Kansas City.
  • Hartford, Conn. – the station will be located outside of the Connecticut Science Center and will be installed in the summer or early fall of 2015.
  • Oklahoma City, Okla. – the station will be located in the children’s garden of the Myriad Botanical Gardens and will be installed in the summer or early fall of 2015.
VG Station in Kansas City, KS

Kansas City, KS

So what is next? We are excited about the expansion of the Village Green Project and hope to learn how some of the new system features perform, such as a combined wind and solar power system we’re using for more northern locations. We hope the project will provide more knowledge about how to build and operate next generation air quality measurement systems for use by communities. Please stay tuned for more updates from the Village Green Project team members as we continue our learning journey.

 

About the Authors: Esteban Herrera is an environmental engineer and project lead for the Village Green Project. Gayle Hagler is an environmental engineer who studies air pollutant emissions and measurement technologies. John White is leading the effort of expanding AirNow’s capabilities to handle one-minute data, including data from the Village Green stations.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Training Citizen Scientists to Monitor Air Quality

By Amanda Kaufman

Next-generation air monitor developed by EPA researchers

Next-generation air monitor developed by EPA researchers

As a science fellow at EPA, I am working with Agency researchers to help bring local air measurement capabilities to communities. This includes training citizen scientists with next generation air monitors developed by EPA researchers. One such device is the Citizen Science Air Monitor, which contains many sophisticated instruments to measure air quality under its sleek and simple design.

Today, Administrator Gina McCarthy is joining New Jersey Senator Cory Booker, Newark Mayor Ras J. Baraka, and other community members at Newark’s Ironbound neighborhood Family Success Center to launch an EPA-Ironbound partnership for community air monitoring that is a first of its kind citizen science project. Read the press release.

The monitor does a lot for being so small and portable. It measures two air pollutants—nitrogen dioxide and particulate matter—as well as relative humidity and temperature. Residents of the Ironbound community are using the monitors to measure pollutants in different locations, during different times of the day and under a variety of weather conditions. The community is impacted by many sources of air pollutants.

In January, I traveled to Newark with researchers who developed the monitor to help train members of the Ironbound Community Corporation to use and maintain the monitors and collect data. The training was very hands-on and the participants were enthusiastic. They even turned the exercise for assembling the monitors into a friendly competition.

EPA researchers shared two training manuals that they developed as part of the outreach project. The quality assurance guidelines and operating procedures manuals are available to the public and are part of an online Citizen Science Toolbox developed to assist citizen scientists who are interested in using new air sensor technologies.

While the quality assurance guidelines and operating procedure are specific to the monitor developed for the Ironbound community, many of the concepts detailed in the documents are transferable to similar air quality monitoring efforts using next generation air monitors. The manuals are:

The ultimate goal of the research project is to empower people with information to address their local air quality concerns. I am glad to be a part of this important activity empowering a community to monitor their local quality

About the Author: Amanda Kaufman is an ORISE participant hosted by EPA’s Air, Climate, and Energy national research program.

Editor's Note: The views expressed here are intended to explain EPA policy. They do not change anyone's rights or obligations. You may share this post. However, please do not change the title or the content, or remove EPA’s identity as the author. If you do make substantive changes, please do not attribute the edited title or content to EPA or the author.

EPA's official web site is www.epa.gov. Some links on this page may redirect users from the EPA website to specific content on a non-EPA, third-party site. In doing so, EPA is directing you only to the specific content referenced at the time of publication, not to any other content that may appear on the same webpage or elsewhere on the third-party site, or be added at a later date.

EPA is providing this link for informational purposes only. EPA cannot attest to the accuracy of non-EPA information provided by any third-party sites or any other linked site. EPA does not endorse any non-government websites, companies, internet applications or any policies or information expressed therein.

Air Sensors Citizen Science Toolbox

airsensorid

By Amanda Kaufman

There is a growing interest by citizens to learn more about what’s going on in their community: What’s in the air I breathe? What does it mean for my health and the health of my family? How can I learn more about these things and even be involved in the process? Is there a way for me to measure, learn, and share information about my local air quality?

Researchers at EPA have developed the virtual Air Sensors Citizen Science Toolbox to help citizens answer these types of questions and more. With the recent release of the Toolbox web page, citizens can now visit http://go.usa.gov/NnR4 and find many different resources at this one simple location. As a citizen scientist myself, I am very excited to learn that there are funding opportunities for individuals and communities to conduct their own air monitoring research projects. The Funding Sources for Citizen Science Database is just one of the many resources on the Toolbox webpage.

One of the resources available as part of the Toolbox is the Air Sensors Guidebook, which explores low-cost and portable air sensor technologies, provides general guidelines on what to look for in obtaining a sensor, and examines important data quality features.

Compact air sensor that could be used by citizen scientists to monitor local air quality.

Compact air sensor that could be used by citizen scientists to monitor local air quality.

To understand the current state of the science, the Toolbox webpage also includes the Sensor Evaluation Report, which summarizes performance trials of low-cost air quality sensors that measure ozone and nitrogen dioxide. Future reports to be posted on the webpage will summarize findings on particulate matter (PM) and volatile organic compound (VOC) sensor performance evaluations.

As they are developed, more tools will be posted on the webpage, including easy-to-understand operating procedures for select low-cost sensors; basic ideas for data analysis, interpretation, and communication; and other helpful information.

I believe the Toolbox is a great resource for citizens to learn more about air sensor technology at a practical level. It will provide guidance and instructions to citizens to allow them to effectively collect, analyze, interpret, and communicate air quality data. The ultimate goal is to give citizens like you and me the power to collect data about the air we breathe.

About the author: Amanda Kaufman is an Environmental Health Fellow from the Association of Schools and Programs of Public Health (ASPPH). She is hosted by EPA’s Air, Climate, and Energy national research program.

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