Vertical distribution of ozone in the lower troposphere over the Bay of Bengal and the Arabian Sea during ICARB-2006: Effects of continental outflow

Srivastava, Shuchita; Lal, Shyam; Venkataramani, S.; Gupta, S. K.; Acharya, Y. B.

doi:10.1029/2010jd015298

Cited by 34 publications

(27 citation statements)

References 65 publications

(93 reference statements)

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“…5). This theory was also proved by Srivastava et al (2011) from the TPSCF (total potential source contribution function) results. One explanation for the larger TOC over the AS in comparison to surrounded regions is the lower humidity which provides less favourable condition for ozone depletion by hydroxyl radicals (OH).…”

Section: Long-range Transport Mechanism and Pollutant Accumulationmentioning

confidence: 77%

“…It is established in the previous studies that LRT plays an important role in the AS pre-monsoon ozone pool (Lal and Lawrence, 2001;Chand et al, 2003;Srivastava et al, 2011Srivastava et al, , 2012Lal et al, 2013Lal et al, , 2014. Trajectory models are used to investigate the LRT pathways of the air parcels.…”

Section: Long-range Transport Mechanism and Pollutant Accumulationmentioning

confidence: 99%

“…In previous studies using the ozonesonde measurements above the west coast of India and the data from two campaigns 1999 INDian Ocean EXperiment (INDOEX) campaigns and the Integrated Campaign for Aerosols, Gases and Radiation Budget (ICARB) campaign, which was conducted during March-May 2006), the higher AS TOC during pre-monsoon season was confirmed to be significantly influenced by LRT of the continental anthropogenically influenced outflows from the Middle East, western India, Africa, North America and Europe (Lal and Lawrence, 2001;Chand et al, 2003;Srivastava et al, 2011Srivastava et al, , 2012Lal et al, 2013Lal et al, , 2014. In addition, by comparing the INDOEX ozone measurements from both sides (northern and southern) of the ITCZ (Intertropical Convergence Zone), the influence of the ITCZ functioning as a sink for ozone was determined by the observed 4 times higher TOC values on the northern side of AS compared to the southern side (Chand et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Tropospheric ozone maxima observed over the Arabian Sea during the pre-monsoon

Jia¹,

Ladstätter-Weißenmayer²,

Hou

et al. 2017

Atmos. Chem. Phys.

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Abstract. An enhancement of the tropospheric ozone column (TOC) over Arabian Sea (AS) during the pre-monsoon season is reported in this study. The potential sources of the AS spring ozone pool are investigated by use of multiple data sets (e.g., SCIAMACHY Limb-Nadir-Matching TOC, OMI/MLS TOC, TES TOC, MACC reanalysis data, MOZART-4 model and HYSPLIT model). Three-quarters of the enhanced ozone concentrations are attributed to the 0-8 km height range. The main source of the ozone enhancement is considered to be caused by long-range transport of ozone pollutants from India ( ∼ 50 % contributions to the lowest 4 km, ∼ 20 % contributions to the 4-8 km height range), the Middle East, Africa and Europe (∼ 30 % in total). In addition, the vertical pollution accumulation in the lower troposphere, especially at 4-8 km, was found to be important for the AS spring ozone pool formation. Local photochemistry, on the other hand, plays a negligible role in producing ozone at the 4-8 km height range. In the 0-4 km height range, ozone is quickly removed by wet deposition. The AS spring TOC maxima are influenced by the dynamical variations caused by the sea surface temperature (SST) anomaly during the El Niño period in 2005 and 2010 with a ∼ 5 DU decrease.

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Section: Long-range Transport Mechanism and Pollutant Accumulationmentioning

confidence: 77%

Section: Long-range Transport Mechanism and Pollutant Accumulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Tropospheric ozone maxima observed over the Arabian Sea during the pre-monsoon

Jia¹,

Ladstätter-Weißenmayer²,

Hou

et al. 2017

Atmos. Chem. Phys.

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“…This valuable data set provided an excellent opportunity to investigate the effects of transport, convective processes, and other physical and chemical effects on the vertical distribution of ozone over these marine regions. The ozone distributions in the lower part of the troposphere up to 4 km height over both the marine regions have been analyzed in detail and published in Srivastava et al [2011]. The present work is the extension of this work covering the entire troposphere including the 0-4 km height for the sake of completeness.…”

Section: Introductionmentioning

confidence: 92%

Transport effects on the vertical distribution of tropospheric ozone over the tropical marine regions surrounding India

et al. 2013

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[1] The measurements of vertical distribution of ozone have been made over the Bay of Bengal and the Arabian Sea in spring 2006 during a cruise campaign, namely, the Integrated Campaign for Aerosol, Gases and Radiation Budget. The average tropospheric columnar ozone (TCO) values are found to be 36.1 AE 6.9 Dobson unit (DU) and 41.7 AE 5.0 DU over the Bay of Bengal and the Arabian Sea, respectively. In contrast to TCO, ozone mixing ratios are higher by about 10 ppbv in the lower 3 km over the Bay of Bengal due to Indo Gangetic outflow above the marine atmospheric boundary layer. Major contribution in the higher TCO value over the Arabian Sea is, possibly, by stratospheric intrusion when ozone in the upper troposphere is higher by about 20 ppbv. The lowest columnar ozone content of 22.4 DU was observed on 30 March in the central Bay of Bengal due to convective activity resulting into lower ozone throughout the troposphere, except between 6 and 10 km altitude. These near simultaneous ozone observations over the Bay of Bengal and the Arabian Sea in spring season have revealed the role of regional and long-range transport and local dynamics on the vertical distribution of ozone over these tropical marine regions.

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“…Considering the aforementioned special characteristics of the BoB, as well as the considerable heterogeneity of trace gas and aerosol distribution, in situ measurements covering large areas are essential for investigating the distribution of pollutants and the controlling processes. Extensive in situ measurements of various trace gases over the BoB have been conducted in the following field campaigns: IN-DOEX during the winter months of 1998 and 1999 (Lelieveld et al, 2001;Mühle et al, 2002); the Integrated Campaign for Aerosols, gases, and Radiation Budget (ICARB) during the March-May (pre-monsoon season) of 2006 Srivastava et al, 2011Srivastava et al, , 2012; the winter-ICARB (W-ICARB) during December-January 2009 Nair, 2010, 2014;; the Bay of Bengal Experiment (BOBEX)-I during February-March 2001 ; the Bay of Bengal Process Studies (BOBPS) during September-October 2002 ; BOBEX-II during February 2003 (Lal et al, 2007); and the other campaign conducted during October-November 2010 (Mallik et al, 2013).…”

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confidence: 99%

Variations in O<sub>3</sub>, CO, and CH<sub>4</sub> over the Bay of Bengal during the summer monsoon season: shipborne measurements and model simulations

et al. 2017

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Abstract. We present shipborne measurements of surface ozone (O 3 ), carbon monoxide (CO), and methane (CH 4 ) over the Bay of Bengal (BoB), the first time such measurements have been performed during the summer monsoon season, as a part of the Continental Tropical Convergence Zone (CTCZ) experiment during 2009. O 3 , CO, and CH 4 mixing ratios exhibited significant spatial and temporal variability in the ranges of 8-54 nmol mol −1 , 50-200 nmol mol −1 , and 1.57-2.15 µmol mol −1 , with means of 29.7 ± 6.8 nmol mol −1 , 96 ± 25 nmol mol −1 , and 1.83 ± 0.14 µmol mol −1 , respectively. The average mixing ratios of trace gases over BoB in air masses from central/northern India (O 3 : 30 ± 7 nmol mol −1 ; CO: 95 ± 25 nmol mol −1 ; CH 4 : 1.86 ± 0.12 µmol mol −1 ) were not statistically different from those in air masses from southern India (O 3 : 27 ± 5 nmol mol −1 ; CO: 101 ± 27 nmol mol −1 ; CH 4 : 1.72 ± 0.14 µmol mol −1 ). Spatial variability is observed to be most significant for CH 4 with higher mixing ratios in the air masses from central/northern India, where higher CH 4 levels are seen in the SCIAMACHY (SCanning Imaging Absorption spectroMeter for Atmospheric CartograpHY) data. O 3 mixing ratios over the BoB showed large reductions (by ∼ 20 nmol mol −1 ) during four rainfall events. Temporal changes in the meteorological parameters, in conjunction with O 3 vertical profile, indicate that these low-O 3 events are associated with downdrafts of free-tropospheric O 3 -poor air masses. While the observed variations of O 3 and CO are successfully reproduced using the Weather Research and Forecasting model with Chemistry (WRF-Chem), this model overestimates mean concentrations by about 6 and 16 % for O 3 and CO, respectively, generally overestimating O 3 mixing ratios during the rainfall events. An analysis of modelled O 3 along air mass trajectories show mean en route O 3 production rate of about 4.6 nmol mol −1 day −1 in the outflow towards the BoB. Analysis of the various tendencies from model simulations during an event on 10 August 2009, reproduced by the model, shows horizontal advection rapidly transporting O 3 -rich air masses from near the coast across the BoB. This study fills a gap in the availability of trace gas measurements over the BoB and, when combined with data from previous campaigns, reveals large seasonal amplitude (∼ 39 and ∼ 207 nmol mol −1 for O 3 and CO, respectively) over the northern BoB.

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Vertical distribution of ozone in the lower troposphere over the Bay of Bengal and the Arabian Sea during ICARB-2006: Effects of continental outflow

Cited by 34 publications

References 65 publications

Tropospheric ozone maxima observed over the Arabian Sea during the pre-monsoon

Tropospheric ozone maxima observed over the Arabian Sea during the pre-monsoon

Transport effects on the vertical distribution of tropospheric ozone over the tropical marine regions surrounding India

Variations in O<sub>3</sub>, CO, and CH<sub>4</sub> over the Bay of Bengal during the summer monsoon season: shipborne measurements and model simulations

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Vertical distribution of ozone in the lower troposphere over the Bay of Bengal and the Arabian Sea during ICARB-2006: Effects of continental outflow

Cited by 34 publications

References 65 publications

Tropospheric ozone maxima observed over the Arabian Sea during the pre-monsoon

Tropospheric ozone maxima observed over the Arabian Sea during the pre-monsoon

Transport effects on the vertical distribution of tropospheric ozone over the tropical marine regions surrounding India

Variations in O&lt;sub&gt;3&lt;/sub&gt;, CO, and CH&lt;sub&gt;4&lt;/sub&gt; over the Bay of Bengal during the summer monsoon season: shipborne measurements and model simulations

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Variations in O<sub>3</sub>, CO, and CH<sub>4</sub> over the Bay of Bengal during the summer monsoon season: shipborne measurements and model simulations