---
- attrs:
    Author: 'Reid, Colleen E.; Michael Brauer; Fay H. Johnston; Michael Jerrett; John R. Balmes; Catherine T. Elliott'
    DOI: 10.1289/ehp.1409277
    Journal: Environmental Health Perspectives
    Pages: 1334-1343
    Title: Critical review of health impacts of wildfire smoke exposure
    Volume: 124
    Year: 2016
    _record_number: 24244
    _uuid: fabe930c-2527-453b-9494-2dad4dd14c9a
    reftype: Journal Article
  child_publication: /article/10.1289/ehp.1409277
  href: https://data.globalchange.gov/reference/fabe930c-2527-453b-9494-2dad4dd14c9a.yaml
  identifier: fabe930c-2527-453b-9494-2dad4dd14c9a
  uri: /reference/fabe930c-2527-453b-9494-2dad4dd14c9a
- attrs:
    .reference_type: 16
    Author: 'EPA,'
    Place Published: 'Washington, DC'
    Publisher: U.S. Environmental Protection Agency (EPA)
    Title: 'Air Quality Design Values: 2016 Design Value Reports [web site]'
    URL: https://www.epa.gov/air-trends/air-quality-design-values#report
    Year: 2016
    _record_number: 24230
    _uuid: fb159a62-f411-47e8-a557-c373f5d4c2eb
    reftype: Web Page
  child_publication: /webpage/70c868da-e947-4c77-b98f-199fa5537fd6
  href: https://data.globalchange.gov/reference/fb159a62-f411-47e8-a557-c373f5d4c2eb.yaml
  identifier: fb159a62-f411-47e8-a557-c373f5d4c2eb
  uri: /reference/fb159a62-f411-47e8-a557-c373f5d4c2eb
- attrs:
    Abstract: 'An integrated global model of climate, tropospheric gas phase chemistry, and aerosols has been used to investigate the sensitivity of global ozone and fine particulate matter concentrations to climate change. Two simulations corresponding to present (1990s) and future (2050s) climates have been performed and compared. A future climate has been imposed using ocean boundary conditions corresponding to the Intergovernmental Panel on Climate Change SRES A2 scenario for the 2050s decade, resulting in an increase in the global annual average values of the surface air temperature by 1.7°C, the lower tropospheric specific humidity by 0.9 g H2O/kg air, and the precipitation by 0.15 mm d−1. Present‐day anthropogenic emissions have been used in both simulations while climate‐sensitive natural emissions were allowed to vary with the simulated climate. The tropospheric ozone burden in the future climate run decreased by 5%, and its lifetime decreased from 27.8 to 25.3 days. The tropospheric ozone change is driven primarily by increased ozone loss rates through ozone photolysis in the presence of water vapor, which on a global scale, more than compensate for the increased ozone chemical production associated with increased temperatures. At the model surface layer, over remote regions, ozone mixing ratios decreased by 1–3 ppbv, while polluted regions showed a relatively smaller decrease of 0–1 ppbv and increased by 1–5 ppbv in some cases. The global burdens and lifetimes of fine particulate matter species in the future climate run decreased by 2 to 18% because of increased wet deposition loss rates associated with increased precipitation. At the model surface layer, there are regions of decreases and increases in the concentrations of fine particulate matter species. The increased surface layer concentrations of some fine particulate matter species is primarily driven by lower regional‐scale precipitation and increased secondary production, where applicable. The robustness of the predicted regional‐scale changes for fine particulate matter species is strongly dependent upon the predicted regional‐scale precipitation changes.'
    Author: 'Racherla, Pavan Nandan; Peter J. Adams'
    DOI: 10.1029/2005JD006939
    Issue: D24
    Journal: 'Journal of Geophysical Research: Atmospheres'
    Pages: D24103
    Title: Sensitivity of global tropospheric ozone and fine particulate matter concentrations to climate change
    Volume: 111
    Year: 2006
    _record_number: 25141
    _uuid: fc7459fe-8533-4a00-8ba8-2ce2783c3103
    reftype: Journal Article
  child_publication: /article/10.1029/2005JD006939
  href: https://data.globalchange.gov/reference/fc7459fe-8533-4a00-8ba8-2ce2783c3103.yaml
  identifier: fc7459fe-8533-4a00-8ba8-2ce2783c3103
  uri: /reference/fc7459fe-8533-4a00-8ba8-2ce2783c3103
- attrs:
    Author: 'Gleason, Jessie A.; Bielory, Leonard; Fagliano, Jerald A.'
    DOI: 10.1016/j.envres.2014.03.035
    Date: 2014/07/01/
    ISSN: 0013-9351
    Journal: Environmental Research
    Keywords: Asthma; Pollen; Case-crossover; Ozone; PM
    Pages: 421-429
    Title: 'Associations between ozone, PM2.5, and four pollen types on emergency department pediatric asthma events during the warm season in New Jersey: A case-crossover study'
    Volume: 132
    Year: 2014
    _record_number: 24263
    _uuid: fcd6c2cf-d18e-412c-809e-9173c7ea993c
    reftype: Journal Article
  child_publication: /article/10.1016/j.envres.2014.03.035
  href: https://data.globalchange.gov/reference/fcd6c2cf-d18e-412c-809e-9173c7ea993c.yaml
  identifier: fcd6c2cf-d18e-412c-809e-9173c7ea993c
  uri: /reference/fcd6c2cf-d18e-412c-809e-9173c7ea993c
- attrs:
    Author: 'Yue, Xu; Mickley, Loretta J.; Logan, Jennifer A.; Kaplan, Jed O.'
    DOI: 10.1016/j.atmosenv.2013.06.003
    Date: 2013/10/01/
    ISSN: 1352-2310
    Journal: Atmospheric Environment
    Keywords: Wildfire; Ensemble projection; Fuel load; Aerosol concentration
    Pages: 767-780
    Title: Ensemble projections of wildfire activity and carbonaceous aerosol concentrations over the western United States in the mid-21st century
    Volume: 77
    Year: 2013
    _record_number: 24219
    _uuid: fd647847-4da5-4fc8-9488-4b79549d7cf6
    reftype: Journal Article
  child_publication: /article/10.1016/j.atmosenv.2013.06.003
  href: https://data.globalchange.gov/reference/fd647847-4da5-4fc8-9488-4b79549d7cf6.yaml
  identifier: fd647847-4da5-4fc8-9488-4b79549d7cf6
  uri: /reference/fd647847-4da5-4fc8-9488-4b79549d7cf6
- attrs:
    .reference_type: 0
    Author: 'Sacks, Jason D.; Stanek, Lindsay Wichers; Luben, Thomas J.; Johns, Douglas O.; Buckley, Barbara J.; Brown, James S.; Ross, Mary'
    DOI: 10.1289/ehp.1002255
    ISSN: 1552-9924
    Issue: 4
    Journal: Environmental Health Perspectives
    Pages: 446-454
    Title: 'Particulate matter–induced health effects: Who is susceptible?'
    Volume: 119
    Year: 2011
    _chapter: Ch3
    _record_number: 16130
    _uuid: fd90ea4e-e20c-488c-9e6d-6d16933940c5
    reftype: Journal Article
  child_publication: /article/10.1289/ehp.1002255
  href: https://data.globalchange.gov/reference/fd90ea4e-e20c-488c-9e6d-6d16933940c5.yaml
  identifier: fd90ea4e-e20c-488c-9e6d-6d16933940c5
  uri: /reference/fd90ea4e-e20c-488c-9e6d-6d16933940c5
- attrs:
    .reference_type: 0
    .text_styles: '<record><field id="4"><run start="0" /><run face="subscript" start="23" /><run start="24" /></field></record>'
    Author: "Jaffe, D.\rChand, D.\rHafner, W.\rWesterling, A.\rSpracklen, D."
    DOI: 10.1021/es800084k
    ISSN: 0013-936X
    Issue: 16
    Journal: Environmental Science & Technology
    Pages: 5885-5891
    Title: Influence of fires on O3 concentrations in the western US
    Volume: 42
    Year: 2008
    _chapter: '["Ch. 9: Human Health FINAL","Overview"]'
    _record_number: 964
    _uuid: ff976c12-df99-41bc-b0c7-464784c38941
    reftype: Journal Article
  child_publication: /article/10.1021/es800084k
  href: https://data.globalchange.gov/reference/ff976c12-df99-41bc-b0c7-464784c38941.yaml
  identifier: ff976c12-df99-41bc-b0c7-464784c38941
  uri: /reference/ff976c12-df99-41bc-b0c7-464784c38941