Nitrous acid formation in a snow-free wintertime polluted rural area

Tsai, Catalina; Spolaor, Max; Colosimo, S. F.; Pikelnaya, O.; Cheung, Ross; Williams, E. J.; Gilman, J. B.; Lerner, B. M.; Zamora, R. J.; Warneke, C.; Roberts, J. M.; Ahmadov, Ravan; Gouw, J. A. de; Bates, T. S.; Quinn, Patricia K.; Stutz, J.

doi:10.5194/acp-18-1977-2018

Cited by 28 publications

(34 citation statements)

References 93 publications

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“…Another emerging question is the role of nitrifying microbes in the production of HONO, which is a major source of atmospheric OH and NO (28). Vertical gradients of HONO have been observed with the highest concentrations at ground level (29)(30)(31)(32), indicating that HONO production may be a function of biotic and/ or abiotic soil processes. Most studies have implicated abiotic mechanisms associated with NO x (NO and NO 2 ) chemistry as the primary driver of HONO production.…”

Section: Significancementioning

confidence: 99%

Microbial mechanisms and ecosystem flux estimation for aerobic NO _y emissions from deciduous forest soils

Mushinski

Phillips

Payne

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Reactive nitrogen oxides (NOy; NOy= NO + NO2+ HONO) decrease air quality and impact radiative forcing, yet the factors responsible for their emission from nonpoint sources (i.e., soils) remain poorly understood. We investigated the factors that control the production of aerobic NOyin forest soils using molecular techniques, process-based assays, and inhibitor experiments. We subsequently used these data to identify hotspots for gas emissions across forests of the eastern United States. Here, we show that nitrogen oxide soil emissions are mediated by microbial community structure (e.g., ammonium oxidizer abundances), soil chemical characteristics (pH and C:N), and nitrogen (N) transformation rates (net nitrification). We find that, while nitrification rates are controlled primarily by chemoautotrophic ammonia-oxidizing archaea (AOA), the production of NOyis mediated in large part by chemoautotrophic ammonia-oxidizing bacteria (AOB). Variation in nitrification rates and nitrogen oxide emissions tracked variation in forest communities, as stands dominated by arbuscular mycorrhizal (AM) trees had greater N transformation rates and NOyfluxes than stands dominated by ectomycorrhizal (ECM) trees. Given mapped distributions of AM and ECM trees from 78,000 forest inventory plots, we estimate that broadleaf forests of the Midwest and the eastern United States as well as the Mississippi River corridor may be considered hotspots of biogenic NOyemissions. Together, our results greatly improve our understanding of NOyfluxes from forests, which should lead to improved predictions about the atmospheric consequences of tree species shifts owing to land management and climate change.

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Section: Significancementioning

confidence: 99%

Microbial mechanisms and ecosystem flux estimation for aerobic NO _y emissions from deciduous forest soils

Mushinski

Phillips

Payne

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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“…2. Given the focus of this work on the use of ANN to model nocturnal HONO chemistry, the Introduction and results should do a much better review and contrast to the existing capabilities of other models such as CMAQ (Czader et al, 2012;Diao et al, 2016;Gonçalves et al, 2012) or custom models Tsai et al, 2018;Vogel et al, 2003;Wong et al, 2012). The Authors should review this literature to aid in preparations for the re-running of their ANN.…”

Section: Interactive Commentmentioning

confidence: 99%

“…Line 304: The Authors conclude here that aerosol surfaces are important, but their lack of awareness of literature reports on the role of the ground surface relative to aerosol surfaces being far more important suggests that they need to reconsider their interpretation of the data after more thoroughly reviewing the literature (see references given in Major Comments above). All vertically-resolved HONO measurements have shown that the ground is a major sink for HONO, as well as dew and available surface water (He et al, 2006;Rubio et al, 2009;Stutz et al, 2004;Tsai et al, 2018;VandenBoer et al, 2015;Wojtal et al, 2011).…”

Section: C6mentioning

confidence: 99%

Review of - Role of HONO in O3 formation during KORUS-AQ

Anonymous

2020

Preprint

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General CommentsThis paper presents an analysis of nighttime sources of nitrous acid (HONO) to the urban atmosphere of Seoul, Korea during the KORUS-AQ campaign through the use of an Artificial Neural Network (ANN) to model ambient concentrations. The manuscript has major flaws in the presented understanding of chemical mechanisms long established for importance to HONO nocturnal chemistry, and therefore, the analysis of the datasets and subsequent modeling are also compromised. The manuscript also suffers from unclear arguments and descriptions that makes many critical details almost impossible to follow for a valid review. This work requires major revisions to meet the C1 ACPD Interactive commentPrinter-friendly version Discussion paper

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“…The Authors should revisit this. It would be better to show that typical aerosol uptake coefficients used by (Tsai et al, 2018;Wong et al, 2012) fail to produce the observed quantities of HONO and to quantify the fraction that aerosol conversion represents so it is clear that aerosol conversion is trivial.…”

Section: C6mentioning

confidence: 99%

Review of: Role of dew water in HONO distribution

2020

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An exploration of the role of dew from field measurements has been long overdue. This work builds very well on prior field observations and lab experiments regarding effective HONO sequestration in dew. The Authors present a convincing study of the uptake and release of HONO from their observations and controlled field collections of dew nitrite. The production and loss process for HONO are parameterized to rates for HONO uptake into dew as well as subsequent release, which are then coupled to a box-model, finding that their observed rapid HONO increases on mornings with dew evaporation can be reproduced. The rates for NO2-to-HONO conversion and HONO deposition are compared against prior uptake observations quite well. Overall, the scientific quality of this manuscript makes it an excellent candidate for publication in Atmospheric Chem-C1

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Nitrous acid formation in a snow-free wintertime polluted rural area

Cited by 28 publications

References 93 publications

Microbial mechanisms and ecosystem flux estimation for aerobic NO _y emissions from deciduous forest soils

Microbial mechanisms and ecosystem flux estimation for aerobic NO _y emissions from deciduous forest soils

Review of - Role of HONO in O3 formation during KORUS-AQ

Review of: Role of dew water in HONO distribution

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Nitrous acid formation in a snow-free wintertime polluted rural area

Cited by 28 publications

References 93 publications

Microbial mechanisms and ecosystem flux estimation for aerobic NO y emissions from deciduous forest soils

Microbial mechanisms and ecosystem flux estimation for aerobic NO y emissions from deciduous forest soils

Review of - Role of HONO in O3 formation during KORUS-AQ

Review of: Role of dew water in HONO distribution

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Product

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Microbial mechanisms and ecosystem flux estimation for aerobic NO _y emissions from deciduous forest soils

Microbial mechanisms and ecosystem flux estimation for aerobic NO _y emissions from deciduous forest soils