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Ilana B. Pollack
Researcher at Colorado State University
Publications - 100
Citations - 4616
Ilana B. Pollack is an academic researcher from Colorado State University. The author has contributed to research in topics: NOx & Aerosol. The author has an hindex of 35, co-authored 92 publications receiving 3651 citations. Previous affiliations of Ilana B. Pollack include Cooperative Institute for Research in Environmental Sciences & University of Colorado Boulder.
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Journal ArticleDOI
Transport of Asian ozone pollution into surface air over the western United States in spring
Meiyun Lin,Meiyun Lin,Arlene M. Fiore,Arlene M. Fiore,Larry W. Horowitz,Owen R. Cooper,Owen R. Cooper,Vaishali Naik,J. S. Holloway,Bryan J. Johnson,Ann M. Middlebrook,Samuel J. Oltmans,Ilana B. Pollack,Ilana B. Pollack,Tomas B. Ryerson,Juying Warner,Christine Wiedinmyer,John Wilson,Bruce Wyman +18 more
TL;DR: In this article, a global high-resolution (50 50 50 km 2 ) chemistry-climate model (GFDL AM3) with full stratosphere-troposphere chemistry nudged to reanalysis winds successfully reproduces observed sharp ozone gradients above California, including interleaving and mixing of Asian pollution and stratospheric air associated with complex interactions of midlatitude cyclone air streams.
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Nitrogen oxides and PAN in plumes from boreal fires during ARCTAS-B and their impact on ozone: an integrated analysis of aircraft and satellite observations
Matthew J. Alvarado,Jennifer A. Logan,Jingqiu Mao,Eric C. Apel,Daniel D. Riemer,Donald R. Blake,Ronald C. Cohen,Kyung-Eun Min,Anne E. Perring,Eleanor C. Browne,Paul J. Wooldridge,Glenn S. Diskin,G. W. Sachse,Henry E. Fuelberg,W. R. Sessions,D. L. Harrigan,G. Huey,Jin Liao,A. Case-Hanks,Jose L. Jimenez,Michael J. Cubison,Stephanie A. Vay,Andrew J. Weinheimer,D. J. Knapp,Denise D. Montzka,Frank Flocke,Ilana B. Pollack,Paul O. Wennberg,Andreas Kürten,John D. Crounse,Jason M. St. Clair,Armin Wisthaler,Tomas Mikoviny,Robert M. Yantosca,C. Carouge,P. Le Sager +35 more
TL;DR: In this article, the authors determined enhancement ratios for NOx, PAN, and other NOy species from boreal biomass burning using aircraft data obtained during the ARCTAS-B campaign and examined the impact of these emissions on tropospheric ozone in the Arctic.
Journal ArticleDOI
A large and ubiquitous source of atmospheric formic acid
Dylan B. Millet,Munkhbayar Baasandorj,Delphine K. Farmer,Joel A. Thornton,Karsten Baumann,Patrick Brophy,S. Chaliyakunnel,J. A. de Gouw,J. A. de Gouw,Martin Graus,Martin Graus,Martin Graus,Lu Hu,Lu Hu,Abigail R. Koss,Abigail R. Koss,Ben H. Lee,Felipe D. Lopez-Hilfiker,J. A. Neuman,J. A. Neuman,Fabien Paulot,Jeff Peischl,Jeff Peischl,Ilana B. Pollack,Ilana B. Pollack,Ilana B. Pollack,T. B. Ryerson,Carsten Warneke,Carsten Warneke,Brent J. Williams,Jun-Wei Xu +30 more
TL;DR: In this paper, the authors employ a chemical transport model (GEOS-Chem CTM) to interpret recent airborne and ground-based measurements over the US Southeast in terms of the constraints they provide on HCOOH sources and sinks.
Journal ArticleDOI
The Deep Convective Clouds and Chemistry (DC3) Field Campaign
Mary C. Barth,Christopher A. Cantrell,William H. Brune,Steven A. Rutledge,James H. Crawford,Heidi Huntrieser,Lawrence D. Carey,Donald R. MacGorman,Morris L. Weisman,Kenneth E. Pickering,Eric C. Bruning,Bruce E. Anderson,Eric C. Apel,Michael I. Biggerstaff,Teresa Campos,Pedro Campuzano-Jost,Ronald C. Cohen,John D. Crounse,Douglas A. Day,Glenn S. Diskin,Frank Flocke,Alan Fried,Charity Garland,Brian G. Heikes,Shawn B. Honomichl,Rebecca S. Hornbrook,L. Gregory Huey,Jose L. Jimenez,Timothy J. Lang,Michael Lichtenstern,Tomas Mikoviny,Benjamin A. Nault,Daniel O'Sullivan,Laura L. Pan,Jeff Peischl,Ilana B. Pollack,Dirk Richter,Daniel D. Riemer,Thomas B. Ryerson,Hans Schlager,Jason M. St. Clair,James Walega,Petter Weibring,Andrew J. Weinheimer,Paul O. Wennberg,Armin Wisthaler,Paul J. Wooldridge,Conrad L. Ziegler +47 more
TL;DR: The Deep Convective Clouds and Chemistry (DC3) field experiment produced an exceptional dataset on thunderstorms, including their dynamical, physical, and electrical structures and their impact on the chemical composition of the troposphere as mentioned in this paper.
Journal ArticleDOI
Organic aerosol formation downwind from the Deepwater Horizon oil spill.
J. A. de Gouw,J. A. de Gouw,Ann M. Middlebrook,Carsten Warneke,Carsten Warneke,Ravan Ahmadov,Ravan Ahmadov,Elliot Atlas,Roya Bahreini,Roya Bahreini,Donald R. Blake,Charles A. Brock,Jerome Brioude,Jerome Brioude,David W. Fahey,Fred C. Fehsenfeld,Fred C. Fehsenfeld,John S. Holloway,John S. Holloway,M. Le Hénaff,R. Lueb,Stuart A. McKeen,Stuart A. McKeen,J. F. Meagher,D. M. Murphy,Claire B. Paris,David D. Parrish,Anne E. Perring,Anne E. Perring,Ilana B. Pollack,Ilana B. Pollack,A. R. Ravishankara,Allen L. Robinson,T. B. Ryerson,Joshua P. Schwarz,Joshua P. Schwarz,J. R. Spackman,J. R. Spackman,Ashwanth Srinivasan,L. A. Watts,L. A. Watts +40 more
TL;DR: A National Oceanic and Atmospheric Administration WP-3D research aircraft made airborne measurements of the gaseous and aerosol composition of air over the Deepwater Horizon (DWH) oil spill in the Gulf of Mexico that occurred from April to August 2010, providing direct and compelling evidence for the importance of formation of SOA from less volatile hydrocarbons.