Ozone chemistry in western U.S. wildfire plumes
Abstract
While ozone increases rapidly in wildfire plumes, downwind its production rate slows dramatically as nitrogen oxide levels decline.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Dec 10, 2021
- Source ID
- 10.1126/sciadv.abl3648
Entities
People
- Aaron Lamplugh
- Alan Fried
- Amber Soja
- Andrew W. Rollins
- Armin Wisthaler
- Caroline C Womack
- Carsten Warneke
- Christopher D. Holmes
- David A. Peterson
- David J. Tanner
- Dirk Richter
- Emily Gargulinski
- Felix Piel
- Georgios I Gkatzelis
- Glenn Diskin
- Glenn M Wolfe
- Hannah M Allen
- Hannah S Halliday
- Hongyu Guo
- Ilann Bourgeois
- J. Andrew Neuman
- Jakob Lindaas
- James H. Crawford
- James Walega
- Jason St. Clair
- Jeff Peischl
- Jessica B Gilman
- Jin Liao
- John B Nowak
- John D. Crounse
- Johnathan Hair
- Jose L. Jimenez
- Joshua P DiGangi
- Kanako Sekimoto
- Kirk Ullmann
- Krystal Vasquez
- L. G. Huey
- Lu Xu
- Matthew M Coggon
- Michael Robinson
- Pamela S. Rickly
- Patrick R Veres
- Paul Wennberg
- Pedro Campuzano-Jost
- Petter Weibring
- Rebecca A Washenfelder
- Reem A. Hannun
- Robert J Yokelson
- Samuel R Hall
- Steven S Brown
- Taylor Shingler
- Thomas Hanisco
- Thomas Ryerson
- Vanessa Selimovic
- Young Ro Lee
Organizations
- California Institute of Technology
- Colorado State University
- Florida State University
- Georgia Tech
- Goddard Space Flight Center
- Langley Research Center
- NOAA Chemical Sciences Laboratory
- National Center for Atmospheric Research
- National Institute of Aerospace
- United States Naval Research Laboratory
- Universities Space Research Association
- University of Colorado Boulder
- University of Innsbruck
- University of Maryland
- University of Montana
- University of Oslo
- Yokohama City University