Literature DB >> 28976736

Emissions of Glyoxal and Other Carbonyl Compounds from Agricultural Biomass Burning Plumes Sampled by Aircraft.

Kyle J Zarzana1,2, Kyung-Eun Min1,2, Rebecca A Washenfelder1,2, Jennifer Kaiser3, Mitchell Krawiec-Thayer3, Jeff Peischl1,2, J Andrew Neuman1,2, John B Nowak1,2, Nicholas L Wagner1,2, William P Dubè1,2, Jason M St Clair4,5, Glenn M Wolfe4,5, Thomas F Hanisco4, Frank N Keutsch3, Thomas B Ryerson1, Steven S Brown1,6.   

Abstract

We report enhancements of glyoxal and methylglyoxal relative to carbon monoxide and formaldehyde in agricultural biomass burning plumes intercepted by the NOAA WP-3D aircraft during the 2013 Southeast Nexus and 2015 Shale Oil and Natural Gas Nexus campaigns. Glyoxal and methylglyoxal were measured using broadband cavity enhanced spectroscopy, which for glyoxal provides a highly selective and sensitive measurement. While enhancement ratios of other species such as methane and formaldehyde were consistent with previous measurements, glyoxal enhancements relative to carbon monoxide averaged 0.0016 ± 0.0009, a factor of 4 lower than values used in global models. Glyoxal enhancements relative to formaldehyde were 30 times lower than previously reported, averaging 0.038 ± 0.02. Several glyoxal loss processes such as photolysis, reactions with hydroxyl radicals, and aerosol uptake were found to be insufficient to explain the lower measured values of glyoxal relative to other biomass burning trace gases, indicating that glyoxal emissions from agricultural biomass burning may be significantly overestimated. Methylglyoxal enhancements were three to six times higher than reported in other recent studies, but spectral interferences from other substituted dicarbyonyls introduce an estimated correction factor of 2 and at least a 25% uncertainty, such that accurate measurements of the enhancements are difficult.

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Year:  2017        PMID: 28976736      PMCID: PMC7354696          DOI: 10.1021/acs.est.7b03517

Source DB:  PubMed          Journal:  Environ Sci Technol        ISSN: 0013-936X            Impact factor:   9.028


  12 in total

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Journal:  Chem Rev       Date:  2000-09-15       Impact factor: 60.622

2.  Glyoxal and Methylglyoxal Setschenow Salting Constants in Sulfate, Nitrate, and Chloride Solutions: Measurements and Gibbs Energies.

Authors:  Eleanor M Waxman; Jonas Elm; Theo Kurtén; Kurt V Mikkelsen; Paul J Ziemann; Rainer Volkamer
Journal:  Environ Sci Technol       Date:  2015-09-22       Impact factor: 9.028

3.  Smoke in the City: How Often and Where Does Smoke Impact Summertime Ozone in the United States?

Authors:  Steven J Brey; Emily V Fischer
Journal:  Environ Sci Technol       Date:  2016-01-15       Impact factor: 9.028

4.  Heterogeneous reactions of glyoxal on particulate matter: identification of acetals and sulfate esters.

Authors:  John Liggio; Shao-Meng Li; Robert McLaren
Journal:  Environ Sci Technol       Date:  2005-03-15       Impact factor: 9.028

5.  Biomass burning in the tropics: impact on atmospheric chemistry and biogeochemical cycles.

Authors:  P J Crutzen; M O Andreae
Journal:  Science       Date:  1990-12-21       Impact factor: 47.728

6.  High winter ozone pollution from carbonyl photolysis in an oil and gas basin.

Authors:  Peter M Edwards; Steven S Brown; James M Roberts; Ravan Ahmadov; Robert M Banta; Joost A deGouw; William P Dubé; Robert A Field; James H Flynn; Jessica B Gilman; Martin Graus; Detlev Helmig; Abigail Koss; Andrew O Langford; Barry L Lefer; Brian M Lerner; Rui Li; Shao-Meng Li; Stuart A McKeen; Shane M Murphy; David D Parrish; Christoph J Senff; Jeffrey Soltis; Jochen Stutz; Colm Sweeney; Chelsea R Thompson; Michael K Trainer; Catalina Tsai; Patrick R Veres; Rebecca A Washenfelder; Carsten Warneke; Robert J Wild; Cora J Young; Bin Yuan; Robert Zamora
Journal:  Nature       Date:  2014-10-01       Impact factor: 49.962

7.  Instrumentation and Measurement Strategy for the NOAA SENEX Aircraft Campaign as Part of the Southeast Atmosphere Study 2013.

Authors:  C Warneke; M Trainer; J A de Gouw; D D Parrish; D W Fahey; A R Ravishankara; A M Middlebrook; C A Brock; J M Roberts; S S Brown; J A Neuman; B M Lerner; D Lack; D Law; G Hübler; I Pollack; S Sjostedt; T B Ryerson; J B Gilman; J Liao; J Holloway; J Peischl; J B Nowak; K Aikin; K-E Min; R A Washenfelder; M G Graus; M Richardson; M Z Markovic; N L Wagner; A Welti; P R Veres; P Edwards; J P Schwarz; T Gordon; W P Dube; S McKeen; J Brioude; R Ahmadov; A Bougiatioti; J J Lin; A Nenes; G M Wolfe; T F Hanisco; B H Lee; F D Lopez-Hilfiker; J A Thornton; F N Keutsch; J Kaiser; J Mao; C Hatch
Journal:  Atmos Meas Tech       Date:  2016-07-18       Impact factor: 4.176

8.  Laser-induced phosphorescence for the in situ detection of glyoxal at part per trillion mixing ratios.

Authors:  Andrew J Huisman; John R Hottle; Katherine L Coens; Joshua P DiGangi; Melissa M Galloway; Aster Kammrath; Frank N Keutsch
Journal:  Anal Chem       Date:  2008-07-02       Impact factor: 6.986

9.  Observational constraints on glyoxal production from isoprene oxidation and its contribution to organic aerosol over the Southeast United States.

Authors:  Jingyi Li; Jingqiu Mao; Kyung-Eun Min; Rebecca A Washenfelder; Steven S Brown; Jennifer Kaiser; Frank N Keutsch; Rainer Volkamer; Glenn M Wolfe; Thomas F Hanisco; Ilana B Pollack; Thomas B Ryerson; Martin Graus; Jessica B Gilman; Brian M Lerner; Carsten Warneke; Joost A de Gouw; Ann M Middlebrook; Jin Liao; André Welti; Barron H Henderson; V Faye McNeill; Samuel R Hall; Kirk Ullmann; Leo J Donner; Fabien Paulot; Larry W Horowitz
Journal:  J Geophys Res Atmos       Date:  2016-07-31       Impact factor: 4.261

10.  Rate coefficients for the OH + HC(O)C(O)H (glyoxal) reaction between 210 and 390 K.

Authors:  Karl J Feierabend; Lei Zhu; R K Talukdar; James B Burkholder
Journal:  J Phys Chem A       Date:  2007-12-01       Impact factor: 2.781
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  3 in total

1.  Southeast Atmosphere Studies: learning from model-observation syntheses.

Authors:  Jingqiu Mao; Annmarie Carlton; Ronald C Cohen; William H Brune; Steven S Brown; Glenn M Wolfe; Jose L Jimenez; Havala O T Pye; Nga Lee Ng; Lu Xu; V Faye McNeill; Kostas Tsigaridis; Brian C McDonald; Carsten Warneke; Alex Guenther; Matthew J Alvarado; Joost de Gouw; Loretta J Mickley; Eric M Leibensperger; Rohit Mathur; Christopher G Nolte; Robert W Portmann; Nadine Unger; Mika Tosca; Larry W Horowitz
Journal:  Atmos Chem Phys       Date:  2018-02-22       Impact factor: 6.133

2.  Glyoxal damages human aortic endothelial cells by perturbing the glutathione, mitochondrial membrane potential, and mitogen-activated protein kinase pathways.

Authors:  Ming-Zhang Xie; Lu-Yang Jiao; Guo-An Zhao; Chun Guo; Jia-Qi Dong; Jie Zhang; Ke-Tao Sun; Guang-Jian Lu; Lei Wang; De-Ying Bo
Journal:  BMC Cardiovasc Disord       Date:  2021-12-18       Impact factor: 2.298

3.  Characterizing carbonyl compounds and their sources in Fuzhou ambient air, southeast of China.

Authors:  Zhen He; Xin Zhang; Yunfeng Li; Xuefen Zhong; Hong Li; Rui Gao; Jinjuan Li
Journal:  PeerJ       Date:  2020-11-05       Impact factor: 2.984
  3 in total

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