In situ ozone production is highly sensitive to volatile organic compounds in Delhi, India

Nelson, Beth S.; Stewart, Gareth J.; Drysdale, Will S.; Newland, Mike J.; Vaughan, Adam; Dunmore, Rachel E.; Edwards, P. M.; Lewis, Alastair C.; Hamilton, Jacqueline F.; Acton, W. Joe F.; Hewitt, C. N.; Crilley, Leigh R.; Alam, Mohammed S.; Şahin, Ülkü Alver; Beddows, D. C. S.; Bloss, William J.; Slater, Eloise; Whalley, Lisa K.; Heard, D. E.; Cash, James M.; Langford, B.; Nemitz, Eiko; Sommariva, Roberto; Cox, Sam; Shivani, .; Gadi, Ranu; Gurjar, Bhola R.; Hopkins, James R.; Rickard, Andrew R.; Lee, James

doi:10.5194/acp-21-13609-2021

Cited by 34 publications

(21 citation statements)

References 95 publications

(122 reference statements)

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“…Whereas, O 3 production rate decreases to 1.1 ppbv hr −1 in +50% NO x case. Even though O 3 levels are lower at the suburban site, the result that O 3 level is enhanced by VOCs (but saturated by NO x ) is in agreement with another station in the Delhi region (Nelson et al., 2021). The model consists of important isoprene reactions with for example, NO 3 , O 3 , and OH (Calvert et al., 2008).…”

Section: Resultssupporting

confidence: 87%

Characteristics of VOC Composition at Urban and Suburban Sites of New Delhi, India in Winter

et al. 2022

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Section: Resultssupporting

confidence: 87%

Characteristics of VOC Composition at Urban and Suburban Sites of New Delhi, India in Winter

et al. 2022

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“…However, the majority of those reports pointed to an unusual higher concentration of O 3 during the same lockdown period in a significant number of places throughout the India [33,36]. It was generally found that the increase/decrease phenomena of photochemically processed tropospheric O 3 are complicated because of its non-linear relationship with its precursors (NO 2 or NO X and VOCs) and meteorological variables; and the reduction of precursor does not necessarily lead to a reduction in tropospheric O 3 [21]. Keeping these in mind, the present study only focuses on the tropospheric O 3 profile of 30 major cities throughout the India during the lockdown of 2020, with reference to the pre-lockdown of 2020, and the same time span of the previous years 2018 and 2019; and, with the aim to understand if the changes in O 3 profile are regional/seasonal precursor and/or meteorological variables dependent/limited or not.…”

Section: Discussionmentioning

confidence: 99%

“…In VOCs limited environment, the higher O 3 levels mostly depend on increasing VOCs and rarely on NO X ; but in NO X limited environment, the O 3 generation pattern and precursor dependence become vice-versa. It is important to determine which environment prevails before developing any O 3 management strategies [21].…”

Section: Discussionmentioning

confidence: 99%

“…Being a secondary pollutant, the generation as well as mitigation of tropospheric O 3 largely depend on multiple factors, such as the dynamics of emission sources for precursor molecules, the ratio and saturation levels of the available precursor molecules, alteration of meteorological variables, and others [19][20][21]. Based on the source and sink mechanism, the precursors such as nitrogen oxides (NO X : NO and NO 2 ), volatile organic compounds (VOCs) including benzene, toluene, ethylbenzene, xylene (BTEX), the proportion of NO X to VOCs [19][20][21], along with the meteorological variables like solar radiation intensity, temperature, relative humidity, wind speed, and rainfall [22][23][24][25], play a key role in the synthesis of O 3 in the troposphere. Reshmi et al [26], while discussing the relations of precursor molecules with O 3 formation in the Kannur city, India, pointed towards a negative correlation with NO X, but positive correlation with carbon monoxide (CO).…”

Section: Introductionmentioning

confidence: 99%

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Trends in Summer-Time Tropospheric Ozone during COVID-19 Lockdown in Indian Cities Might Forecast a Higher Future Risk

et al. 2022

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High concentrations of tropospheric ozone (O3) is a serious concern in India. The generation and atmospheric dynamics of this trace gas depend on the availability of its precursors and meteorological variables. Like other parts of the world, the COVID-19 imposed lockdown and restrictions on major anthropogenic activities executed a positive impact on the ambient air quality with reduced primary pollutants/precursors load. In spite of this, several reports pointed towards a higher O3 in major Indian cities during the lockdown. The present study designed with 30 pan-Indian mega-, class I-, and class II-cities revealed critical and contrasting aspects of the geographical location, source, precursor, and meteorological variable dependency of the spatial and temporal O3 formation. This unexpected O3 increase in the major cities might forecast the probable future risks for the National Air Quality policies, especially O3 pollution management, in the Indian sub-continent. The results also pointed towards the severity of the north Indian air quality, followed by the western and eastern parts. We believe these results will definitely pave the way for researchers and policy-makers for predicting/framing regional and/or national O3 management strategies in the future.

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“…The satellite-based urban HCHO trends are discussed and compared to the estimated AVOC emission trends in bottom-up inventories and to the respective OMI NO 2 trends calculated over the same cities. VOC and NO x are the key ingredients in the formation of tropospheric ozone (Calvert et al 2015), of which abundances have been generally increasing over East and South Asia in the last decades (Nelson et al 2021). Although road transport and other sectors contribute significantly to both AVOC and NO x emissions, the AVOC/NO x emission ratio is sectordependent and some of the major sources of NO x and AVOC (power generation and solvent use, respectively) are markedly different (Li et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Spaceborne evidence for significant anthropogenic VOC trends in Asian cities over 2005–2019

Bauwens

Verreyken

Stavrakou

et al. 2022

Environ. Res. Lett.

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Trends of formaldehyde (HCHO) linked to anthropogenic activity over large cities located in the Asian continent are calculated for the period 2005–2019 using the Quality Assurance for Essential Climate Variables (QA4ECV) dataset from the Ozone Monitoring Instrument (OMI) aboard the Aura satellite. Contributions due to anthropogenic emissions are isolated by applying a correction based on near-surface temperature in order to account for interference from local biogenic emissions. Strong positive trends are derived over the Middle East and the Indian subcontinent (up to 3.6% yr-1 and 2.4% yr-1 respectively) where regulations of anthropogenic non-methane volatile organic compound (NMVOC) emissions are currently limited. Weaker trends are observed over cities located in China, where the air pollution action plan (2013) may have mitigated NMVOC trends early on, but targeted legislature concerning VOC emissions was only recently introduced. HCHO trends for cities located in South and Equatorial Asia are mostly not significant or very uncertain. Cities located in Taiwan and Japan (regions in Asia where legislation has been in place since the early 2000s) display mostly negative trends.

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In situ ozone production is highly sensitive to volatile organic compounds in Delhi, India

Cited by 34 publications

References 95 publications

Characteristics of VOC Composition at Urban and Suburban Sites of New Delhi, India in Winter

Characteristics of VOC Composition at Urban and Suburban Sites of New Delhi, India in Winter

Trends in Summer-Time Tropospheric Ozone during COVID-19 Lockdown in Indian Cities Might Forecast a Higher Future Risk

Spaceborne evidence for significant anthropogenic VOC trends in Asian cities over 2005–2019

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