不良研究所

Consumer, Industrial Products Overtake Transportation as Source of Urban Air Pollution

New Study Finds Surprisingly High Contribution From Paints, Pesticides, Perfumes As Vehicle Emissions Drop

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Smoggy Los Angeles
Los Angeles, Griffith Observatory and air pollution. A new study reports that emissions from common household and industrial products including perfumes, pesticides and paints now rival motor vehicle emissions as the top source of urban air pollution. Photo by DAVID ILIFF. (https://en.wikipedia.org/wiki/File:Los_Angeles_Pollution.jpg, License: CC-BY-SA 3.0)

Quick Summary

  • As transportation emissions fall, other oil-based products contribute more to air pollution
  • Consumer products can cause high levels of indoor air pollution, but also contribute to outdoor air pollution
  • New study closes gap between predictions and data

Consumer products such as shampoo, cleaning products and paint now contribute as much to urban air pollution as tailpipe emissions from vehicles, according to led by NOAA and including researchers at the 不良研究所. The results are published Feb. 16 in the journal Science.

鈥淲hat鈥檚 exciting about this work is that it shows that everyday consumer choices can have an impact on air quality in the U.S.,鈥 said Christopher Cappa, professor of civil and environmental engineering at 不良研究所 and a co-author on the paper.

People use a lot more fuel than they do petroleum-based compounds in chemical products鈥攁bout 15 times more by weight, according to the new assessment. Even so, lotions, paints and other products contribute about as much to air pollution as does the transportation sector. In the case of one type of pollution鈥攖iny particles that can damage people鈥檚 lungs鈥攑article-forming emissions from chemical products are about twice as high as those from the transportation sector, the team found.

 鈥淎s transportation gets cleaner, those other sources become more and more important,鈥 said team leader Brian McDonald, a scientist in the Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder, working in NOAA鈥檚 Chemical Sciences Division.

The scientists focused on volatile organic compounds or VOCs that can waft into the atmosphere and react to produce either ozone or particulate matter鈥攂oth of which are regulated in the United States and many other countries because of health impacts, including lung damage.

Vehicle emissions cut by regulation, technology

Over the past few decades, regulators and car manufacturers have made pollution-limiting changes to engines, fuels and gas pumps. McDonald and his colleagues reassessed air pollution sources by sorting through recent chemical production statistics compiled by industries and regulatory agencies, by making detailed atmospheric chemistry measurements in Los Angeles air, and by evaluating indoor air quality measurements made by others.

The scientists concluded that in the U.S., the amount of VOCs emitted by consumer and industrial products is actually two or three times greater than estimated by current air pollution inventories, which also overestimate vehicular sources. For example, the Environmental Protection Agency estimates that about 75 percent of VOC emissions (by weight) come from vehicular sources, and about 25 percent from chemical products. The new study, with its detailed assessment of up-to-date chemical use statistics and previously unavailable atmospheric data, puts the split closer to 50-50.

The disproportionate air quality impact of chemical product emissions is partly because of a fundamental difference between those products and fuels.

鈥淕asoline is stored in closed, hopefully airtight, containers and the VOCs in gasoline are burned for energy,鈥 said NOAA atmospheric scientist Jessica Gilman. 鈥淏ut volatile chemical products used in common solvents and personal care products are literally designed to evaporate. You wear perfume or use scented products so that you or your neighbor can enjoy the aroma. You don't do this with gasoline,鈥 Gilman said.

Closing gap between models and measurements

Cappa said that there has been a persistent gap between levels of fine particles measured in urban air and predictions from models. The new work has the potential to close this gap, he said. 

The team found that they simply could not reproduce the levels of particles or ozone they measured in the Los Angeles area without including emissions from volatile chemical products. They also determined that people are exposed to very high concentrations of volatile compounds indoors.

Additional authors on the study were: Joost A. de Gouw, Stuart A. McKeen, Yu Yan Cui, Si-Wan Kim, CIRES and NOAA Chemical Sciences Division; Gregory J. Frost, James M. Roberts, Thomas B. Ryerson, and Michael Trainer, NOAA Chemical Sciences Division;  Shantanu H. Jathar, Colorado State University and 不良研究所; Ali Akherati, Colorado State University; Jose L. Jimenez, CIRES and CU Boulder; Julia Lee-Taylor, CIRES and National Center for Atmospheric Research; Patrick L. Hayes, Universite of Montreal; Drew R. Gentner, Yale University; Gabriel Isaacman, NCAR; VanWertz, Virginia Tech; Allen H. Goldstein and Robert A. Harley, UC Berkeley.

This research was supported by NOAA, the CIRES Visiting Fellowship Program, Aerodyne Research, Inc., the National Science Foundation and the Sloan Foundation. CIRES is a partnership of NOAA and the University of Colorado Boulder.

Video: Everyday chemicals and air pollution

 

 

Media Resources

Kat Kerlin, News and Media Relations, 530-750-9195, kekerlin@ucdavis.edu

Christopher Cappa, Civil & Environmental Engineering, (530) 752-8180, cdcappa@ucdavis.edu

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