<p>Crop residue burning (CRB) in Northern India is a serious concern that poses substantial health risks and deteriorates air quality in the Indo-Gangetic Plain (IGP) region via regional transport. Despite governmental regulations and various interventions, the practice remains prevalent. In this study, we investigate the influence of CRB on ambient black carbon (BC) level in rural areas of Punjab during the post-monsoon period. BC source contributors were quantified using Aethalometer model (AM) and positive matrix factorization (PMF) approaches. Interestingly, despite the distinct mathematical framework of these two models, their results showed good agreement. Although the measurements were conducted in the agricultural field, CRB contributed on average 48% to the total BC, periodically exceeding 90% during the active burning hours (1:00 PM–6:00 PM), resulting in strong diurnal variation. In addition to the CRB several other BC sources, e.g. traffic emissions (20.2%), power plant emissions (24.0%), waste incineration (2.0%), and a Pb-rich industrial factor (6.1%) were also quantified. The BC concentration measured during the study ranged from 1.45 to 85.0&#xa0;µg/m<sup>3</sup> with an average of 12.6&#xa0;µg/m<sup>3</sup>. Absorption Ångström exponent (AAE) was also calculated and observed to be 1.7 ± 0.3, with hourly variations ranging from 1.1 to 2.4, suggesting a significant influence of CRB. Furthermore, spectral variation in absorption characteristics of BC and brown carbon (BrC) was also evaluated, providing insight into the optical properties of fresh biomass-burning carbonaceous aerosols. The study highlights the persistent dominance of CRB emissions in shaping rural aerosol composition. Moreover, when transported by prevailing winds, these aerosols substantially influence air quality across the IGP. Forward wind trajectory analysis further demonstrates that air masses originating in Punjab frequently move toward the IGP region, supporting the observed regional impact of CRB emissions. These findings provide quantitative evidence to support targeted policy interventions, including stricter enforcement of crop residue burning bans, wider adoption of sustainable residue management alternatives, and regionally coordinated air quality mitigation strategies across the IGP.</p>

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Ambient black carbon and its dependence on in situ stubble burning

  • Vikas Goel,
  • Ajit Kumar,
  • Anjanay Pandey,
  • Mohd Faisal,
  • Umer Ali,
  • Rakesh Maity,
  • Ravindra Khaiwal,
  • Suman Mor,
  • Vikram Singh,
  • Mayank Kumar

摘要

Crop residue burning (CRB) in Northern India is a serious concern that poses substantial health risks and deteriorates air quality in the Indo-Gangetic Plain (IGP) region via regional transport. Despite governmental regulations and various interventions, the practice remains prevalent. In this study, we investigate the influence of CRB on ambient black carbon (BC) level in rural areas of Punjab during the post-monsoon period. BC source contributors were quantified using Aethalometer model (AM) and positive matrix factorization (PMF) approaches. Interestingly, despite the distinct mathematical framework of these two models, their results showed good agreement. Although the measurements were conducted in the agricultural field, CRB contributed on average 48% to the total BC, periodically exceeding 90% during the active burning hours (1:00 PM–6:00 PM), resulting in strong diurnal variation. In addition to the CRB several other BC sources, e.g. traffic emissions (20.2%), power plant emissions (24.0%), waste incineration (2.0%), and a Pb-rich industrial factor (6.1%) were also quantified. The BC concentration measured during the study ranged from 1.45 to 85.0 µg/m3 with an average of 12.6 µg/m3. Absorption Ångström exponent (AAE) was also calculated and observed to be 1.7 ± 0.3, with hourly variations ranging from 1.1 to 2.4, suggesting a significant influence of CRB. Furthermore, spectral variation in absorption characteristics of BC and brown carbon (BrC) was also evaluated, providing insight into the optical properties of fresh biomass-burning carbonaceous aerosols. The study highlights the persistent dominance of CRB emissions in shaping rural aerosol composition. Moreover, when transported by prevailing winds, these aerosols substantially influence air quality across the IGP. Forward wind trajectory analysis further demonstrates that air masses originating in Punjab frequently move toward the IGP region, supporting the observed regional impact of CRB emissions. These findings provide quantitative evidence to support targeted policy interventions, including stricter enforcement of crop residue burning bans, wider adoption of sustainable residue management alternatives, and regionally coordinated air quality mitigation strategies across the IGP.