EDF Health

Hurricanes Coming: Protecting Black and Brown Neighborhoods from a “Triple Whammy”

By Elena Craft, PhD / Published: June 17, 2020

Elena Craft, Ph.D., is Senior Director of Climate and Health

This is the first in a series of Global Clean Air blogs on COVID-19 and air pollution. EDF scientists will share data about pollution levels during quarantine from a local and global perspective, and provide recommendations for governments and companies to Rebuild Better.

A black man who lived most of his 88 years in Pleasantville was one of the first Houstonians to die from COVID-19.

James C. Campbell, Source: ABC13.com Houston

His name was James C. Campbell. He raised a family in one of the first neighborhoods in the city planned for black Houstonians, Pleasantville, which has been surrounded in the years since it was founded by congested interstates, salvage yards, metal recyclers, and a sprawling brewery where heavy trucks come and go day and night. Pleasantville residents still share stories about where they were when chemicals in warehouses exploded in the 1990s and forced them to flee their neighborhood for safety.

Just days after Campbell’s funeral in early April, as the coronavirus started to spread across Texas, UT Health researchers mapped neighborhoods across Houston like Pleasantville where residents suffering from underlying health conditions and from years of exposure to air pollution were at increased risk from the worst impacts of a COVID infection. The intention was clear: Data could help local government leaders decide how, and where, to marshal resources to protect the health of those who needed it most.

Disasters do not impact neighborhoods equally, data like that show. It’s clear during the coronavirus pandemic, just as it was clear during past disasters like Hurricane Harvey. In 2017, for example, in the first, and worst days of the storm, 93 percent of all known toxic emissions in all of Harris County were released within a four-mile radius of the predominantly Hispanic neighborhood Manchester — an area that includes Pleasantville — even though it makes up less than 5 percent of the county geographically.

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Amid COVID-19, the Trump administration sets dangerous air pollution standards. What is at stake for Houstonians?

By Ananya Roy / Published: May 11, 2020

Ananya Roy, Senior Health Scientist; Rachel Fullmer, Senior Attorney; Jeremy Proville, Director; Grace Tee Lewis, Health Scientist

The Trump administration’s disregard for science has been clear in the response to the COVID-19 pandemic, but it’s not the only health threat they’re making worse by ignoring overwhelming scientific evidence. For three years the administration has systematically sought to weaken clean air safeguards, endangering all Americans.

We know air pollution causes heart disease, diabetes and lung disease—and that the people suffering from these conditions are at greater risk of severe illness from COVID-19. Independent of the ongoing pandemic, air pollution is responsible for tens of thousands of deaths across America year after year. This underscores the vital importance of pollution protections to protect human health both during and after the COVID-19 crisis.

Unfortunately, EPA Administrator Andrew Wheeler has proposed to retain an outdated and inadequate standard for fine particulate matter (PM2.5) pollution despite strong scientific evidence that it must be strengthened to adequately protect human health.

To understand what having this pollution standard means for families living in the Greater Houston area, Harvard University and EDF scientists undertook an analysis of the impacts of PM2.5 exposure across the city. We found that:

  • Exposure to fine particle air pollution in 2015 was responsible for 5,213 premature deaths and over $49 billion in associated economic damages.
  • More than 75% of the health burden was borne by communities exposed to PM2.5 levels below the current standard.
  • Meeting the current standard alone would have prevented 91 deaths of the more than 5,000 premature deaths due to fine particle pollution.

By ignoring the scientific evidence and retaining the current standard, Administrator Wheeler is ignoring the very real health impacts felt by Houstonians and communities across the country from exposure to fine particle pollution.

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How new data is helping West Oakland clear the air

By / Published: January 21, 2020

Fern Uennatornwaranggoon is EDF’s Air Quality Policy Manager.

Community groups are using California’s first-of-its-kind Community Air Protection Plan to reduce pollution in the city’s most impacted areas.

The fight for healthier air in West Oakland spans generations. Just Ask Ms. Margaret Gordon, who has been at it since 1992. “I’ve had 16 grandchildren and one great-grandchild since then,” says the co-director of the West Oakland Environmental Indicators Project (WOEIP). Two years ago her community’s efforts got a much-needed boost: California passed AB 617, establishing a program requiring the state to reduce air pollution in those areas most impacted. Under the Community Air Protection Plan, community groups, environmental organizations, industry and local air districts work with the California Air Resources Board (CARB) to develop improvement plans.

Ms. Margaret, who has been an integral part of West Oakland’s efforts, tells EDF’s Fern Uennatornwaranggoon how the plan unfolded and how data gathered from Google Street View cars fed into its development.

Fern: Why did CARB turn to WOEIP to facilitate the community air plan?

Ms. Margaret: We were asked, because of the work we have done over the last 25 years on air quality. We had demonstrated our capacity to participate technically with the air district staff. In 2015 and 2016, we started doing the air monitoring with EDF, Google, the University of Texas and Aclima, and we also deployed 100 sensors with UC Berkeley throughout West Oakland for the 100×100 project.

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Air pollution: E-commerce’s sustainability problem that isn’t the cardboard box

By EDF Blogs / Published: July 22, 2019

Aileen NowlanSenior Manager, EDF+Business

This post originally appeared on EDF+Business.

With the click of a button, our groceries, clothes, personal care products, household items – just about anything – could arrive on our doorsteps in a neatly packaged cardboard box. It’s convenience, delivered. But at what cost?

What happens behind-the-scenes to get a package delivered to your door is taking a toll on our planet and our health. Freight is the fastest growing source of greenhouse gases and a major source of local air pollution. The rise in e-commerce is a growing part of increased pollution and poor air quality.

The truth is, “free shipping” isn’t really free. We’re just paying for it in other ways.

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Wearable sensors drive demand for cleaner air

By EDF Blogs / Published: July 16, 2019

Tasha Kosviner, Environment Writer/ Editor

This blog originally appeared on Medium.

Brooklyn Bridge

Most Fridays, my eight-year-old son and I take a walk. Our route takes us across some of the busiest traffic intersections in Brooklyn. As we walk, we talk. My son has lots to say and he bounces from topic to topic in funny and unexpected ways. This being New York, we often have to shout over the sound of car horns, sirens and buses roaring away from curbs.

Earlier this year, our conversation centered around the little white gadget clipped to my bag. Known as an AirBeam, it was personal air quality monitor, able to sense and measure the pollution in the air around us as we walked. The data it gathered was fed, via Bluetooth, to an app on my phone, giving us real time information about what was in the air we were breathing. What we saw was sobering.

With increasing global concern about air pollution, the availability of, and interest in, wearable air quality monitors has accelerated in recent years. In addition to the AirBeam, there is now also the Tzoa, the Flow, the ATMOtube, the CleanSpace Tag. A quick search of crowdfunding sites like Kickstarter and GoFundMe reveals multiple new monitors under development all claiming to give us the lowdown on what’s in the air around us.

Many of these gadgets stream their measurements straight to your smartphone. The AirBeam uses an open-source platform, AirCasting, and the information appears in ever evolving graphs which dip and peak as you move through space and time.

For most of mine and my son’s Friday walk, the lines remained reassuringly green and steady. But as we crossed a bridge above the Brooklyn-Queens Expressway, with traffic flying beneath our feet, the PM2.5 line (so-called because the particles detected are less than 2.5 micrometers in diameter, or one-thirtieth the size of a human hair) suddenly spiked and turned a traffic light red. We stood together and watched it silently for a few seconds.

“What does it mean?” my little boy asked.

I hesitated. The air around us looked clear, the sun shone, the people looked the same. Whatever was happening in the air above that expressway, New York (no surprise here!) didn’t seem to care. Staring at that red line, I realised I didn’t really know what it meant either. Could we stay and safely breathe that air? How long before it started to affect our health? A minute? A week? A year? I did that parent thing and answered without really answering.

“It means we’re moving on,” I tell him. “Let’s walk.”

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What dense sensor networks can teach us about air pollution

By Maria Harris / Published: May 21, 2019

Maria Harris is an Environmental Epidemiologist.

It all started with a challenge in 2013: how to engineer pollution-sensing balloons. Thomas Kirchstetter, Adjunct Professor at the University of California, Berkeley and the Director of the Energy Analysis and Environmental Impacts Division at Lawrence Berkeley National Lab, wanted to attach pollution sensors to high altitude weather balloons to measure how black carbon moves throughout the atmosphere.

Black carbon “soot” is emitted from diesel engines on trucks, locomotives, and ships, as well as from wildfires and the combustion of solid fuels for cooking and heating. But available technology to measure this air pollutant wasn’t well suited to handle the changes in temperature and humidity experienced during its ascent through the atmosphere or affordable enough to scale. So, he and Berkeley graduate students Danny Wilson and Julien Caubel researched what it would take to create their own.

Meanwhile, Kirchstetter had been in touch with Joshua Apte, assistant professor at the University of Texas at Austin, about his work leading Environmental Defense Fund’s mobile pollution monitoring study using Google Street View cars to measure air quality in Oakland. Apte asked Kirchstetter to support the team’s analysis as they examined how pollution concentrations varied from block to block—including black carbon. That’s when a lightbulb went off for Kirchstetter.

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