Spatial-temporal variations in surface ozone over Ushuaia and the Antarctic region: observations from in situ measurements, satellite data, and global models

Nadzir, Mohd Shahrul Mohd; Ashfold, Matthew J.; Khan, Firoz; Robinson, A. D.; Bolas, Conor G.; Latif, Mohd Talib; Wallis, B.M.; Mead, Mohammed Iqbal; Hamid, Haris Hafizal Abdul; Harris, Neil; Ramly, Zamzam Tuah Ahmad; Lai, Goh Thian; Liew, Ju Neng; Ahamad, Fatimah; Uning, Royston; Samah, Azizan Abu; Maulud, Khairul Nizam Abdul; Suparta, Wayan; Zainudin, Siti Khalijah; Wahab, Muhammad Ikram A.; Sahani, Maneesh; Müller, Moritz; Yeok, Foong Swee; Rahman, Nasaruddin Abdul; Mujahid, Aazani; Morris, Kenobi Isima; Sasso, Nicholas Dal

doi:10.1007/s11356-017-0521-1

Cited by 12 publications

(12 citation statements)

References 57 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Similar to previous studies, we surmise that NOx equilibrium fractionation is unlikely to be relevant in our system, as NOx concentrations are significantly lower than O3 concentrations (Elliott, et al, 2007;Morin, et al, 2009;Park, et al, 2018). Typical O3 concentrations observed at coastal sites in Antarctica are on the order of 20 ppbv (Nadzir, et al, 2018), whereas the sum of NO and NO2 rarely exceeds 40 pptv (Jones, et al, 2000;Weller, et al, 2002;Bauguitte, et al, 2012). Under these conditions NOx isotopic exchange occurs at a much slower rate than (R1) and (R2), such that little to no equilibrium isotope fractionation is expressed and the δ 15 N of the NO3should reflect the δ 15 N of the NOx source one would expect δ 15 N-NO3to increase with latitude, as both fractionation processes produce NO3with a δ 15 N signature higher than the source NOx.…”

Section: 2) Interpretation Of Natural Nox Sources Using the N Isotopic Composition Of Atmospheric No3 -supporting

confidence: 90%

The importance of alkyl nitrates and sea ice emissions to atmospheric NO<sub>x</sub> sources and cycling in the summertime Southern Ocean marine boundary layer

Burger

Granger

Joyce

et al. 2021

Preprint

View full text Add to dashboard Cite

Abstract. Atmospheric nitrate originates from the oxidation of nitrogen oxides (NOx = NO + NO2) and impacts both tropospheric chemistry and climate. NOx sources, cycling, and NOx to nitrate formation pathways are poorly constrained in remote marine regions, especially the Southern Ocean where pristine conditions serve as a useful proxy for the preindustrial atmosphere. Here, we measured the isotopic composition (δ15N and δ18O) of atmospheric nitrate in coarse-mode (> 1 μm) aerosols collected in the summertime marine boundary layer of the Atlantic Southern Ocean from 34.5° S to 70° S, and across the northern edge of the Weddell Sea. The δ15N-NO3− decreased with latitude from −2.7 ‰ to −43.1 ‰. The decline in δ15N with latitude is attributed to changes in the dominant NOx sources: lightning at the low latitudes, oceanic alkyl nitrates at the mid latitudes, and photolysis of nitrate in snow at the high latitudes. There is no evidence of any influence from anthropogenic NOx sources or equilibrium isotopic fractionation. Using air mass back trajectories and an isotope mixing model, we calculate that oceanic alkyl nitrate emissions have a δ15N signature of −22.0 ‰ ± 7.5 ‰. Given that measurements of alkyl nitrate contributions to remote nitrogen budgets are scarce, this may be a useful tracer for detecting their contribution in other oceanic regions. The δ18O-NO3− was always less than 70 ‰, indicating that daytime processes involving OH are the dominant NOx oxidation pathway during summer. Unusually low δ18O-NO3− values (less than 31 ‰) were observed at the western edge of the Weddell Sea. The air mass history of these samples indicates extensive interaction with sea ice covered ocean, which is known to enhance peroxy radical production. The observed low δ18O-NO3− is therefore attributed to increased exchange of NO with peroxy radicals, which have a low δ18O, relative to ozone, which has a high δ18O. This study reveals that the mid- and high-latitude surface ocean may serve as a more important NOx source than previously thought, and that the ice-covered surface ocean impacts the reactive nitrogen budget as well as the oxidative capacity of the marine boundary layer.

show abstract

Section: 2) Interpretation Of Natural Nox Sources Using the N Isotopic Composition Of Atmospheric No3 -supporting

confidence: 90%

The importance of alkyl nitrates and sea ice emissions to atmospheric NO<sub>x</sub> sources and cycling in the summertime Southern Ocean marine boundary layer

Burger

Granger

Joyce

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

Section: 2) Interpretation Of Natural Nox Sources Using the N Isotopic Composition Of Atmospheric No3 -supporting

confidence: 90%

Reply on RC1

Burger

2021

View full text Add to dashboard Cite

“…The main sources of air pollution in urban areas are combustion from vehicles, power generation plants, landfill sites, wastewater treatment plants and unsustainable farming. The emissions of air pollutants such as volatile organic compounds (VOCs), carbon monoxide (CO), nitrogen dioxide (NO 2 ), ozone (O 3 ), sulphur dioxide (SO 2 ) and particulate matter (PM) need to be monitored at high resolution in urban areas since these compounds will deteriorate human health if present at high concentrations (Latif et al, 2012;Banan et al, 2013;Nadzir et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

The Impact of Movement Control Order (MCO) during Pandemic COVID-19 on Local Air Quality in an Urban Area of Klang Valley, Malaysia

Nadzir

Ooi

Alhasa

et al. 2020

Aerosol Air Qual. Res.

Self Cite

View full text Add to dashboard Cite

The world is currently going through the COVID-19 pandemic which has caused hundreds of thousands of deaths in just a few months. Considering the need for lockdown measures, most countries, including Malaysia, have implemented 'Movement Control Orders' (MCOs) as a prevention step to reduce the deadly spread of this disease. Local and worldwide media have reported the immediate improvement of air quality due to this event. Nevertheless, data on the effects of MCOs on air quality at local scales are still sparse. Here, we investigate changes in air quality during the MCO at an urban area using the air sensor network AiRBOXSense which measures monoxide (CO) and particulate matter (PM 2.5 and PM 10). In this study, air pollutant data during normal days were compared with MCO days using a reference analyser and AiRBOXSense. The results showed that the levels of the measured pollutants dropped by ~20 to 60% during the MCO days at most locations. However, CO in Kota Damansara (KD) dropped to 48.7%, but PM 2.5 and PM 10 increased up to 60% and 9.7% respectively during MCO days. Local burning activities in the residential area of KD are believed to be the main cause of the increased PM levels. This study has proven that air pollutant levels have significantly fallen due to the MCO. This air quality level information showed that the reduction of air pollutants can be achieved if traffic and industry emissions are strictly controlled.

show abstract

Spatial-temporal variations in surface ozone over Ushuaia and the Antarctic region: observations from in situ measurements, satellite data, and global models

Cited by 12 publications

References 57 publications

The importance of alkyl nitrates and sea ice emissions to atmospheric NO<sub>x</sub> sources and cycling in the summertime Southern Ocean marine boundary layer

The importance of alkyl nitrates and sea ice emissions to atmospheric NO<sub>x</sub> sources and cycling in the summertime Southern Ocean marine boundary layer

Reply on RC1

The Impact of Movement Control Order (MCO) during Pandemic COVID-19 on Local Air Quality in an Urban Area of Klang Valley, Malaysia

Contact Info

Product

Resources

About

Spatial-temporal variations in surface ozone over Ushuaia and the Antarctic region: observations from in situ measurements, satellite data, and global models

Cited by 12 publications

References 57 publications

The importance of alkyl nitrates and sea ice emissions to atmospheric NO&lt;sub&gt;x&lt;/sub&gt; sources and cycling in the summertime Southern Ocean marine boundary layer

The importance of alkyl nitrates and sea ice emissions to atmospheric NO&lt;sub&gt;x&lt;/sub&gt; sources and cycling in the summertime Southern Ocean marine boundary layer

Reply on RC1

The Impact of Movement Control Order (MCO) during Pandemic COVID-19 on Local Air Quality in an Urban Area of Klang Valley, Malaysia

Contact Info

Product

Resources

About

The importance of alkyl nitrates and sea ice emissions to atmospheric NO<sub>x</sub> sources and cycling in the summertime Southern Ocean marine boundary layer

The importance of alkyl nitrates and sea ice emissions to atmospheric NO<sub>x</sub> sources and cycling in the summertime Southern Ocean marine boundary layer