Environmental Research Letters (Jan 2022)

Long-term trends of direct nitrous oxide emission from fuel combustion in South Asia

  • Sangeeta Bansal,
  • Nandula Raghuram,
  • Tapan Kumar Adhya,
  • Md Mizanur Rahman,
  • Dendup Tshering,
  • Khem Raj Dahal,
  • Abdul Wakeel,
  • Shazly Aminath,
  • Zikrullah Safi,
  • Sarath Nissanka,
  • Himanshu Pathak,
  • Tariq Aziz,
  • Umme Aminum Naher,
  • Warshi Dandeniya,
  • Jatish Chandra Biswas,
  • Jitender Taneja,
  • Ananta Narayan Panda,
  • Himadri Kaushik,
  • Niveta Jain,
  • Ute Skiba,
  • Ramesh Ramachandran,
  • Mark A Sutton

DOI
https://doi.org/10.1088/1748-9326/ac5cf7
Journal volume & issue
Vol. 17, no. 4
p. 045028

Abstract

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An increasing concentration of nitrous oxide (N _2 O) in the global atmosphere can perturb the ecological balance, affecting the climate and human life. South Asia, one of the world’s most populous regions, is a hotspot for N _2 O emission. Although agriculture traditionally dominated the region, economic activities are rapidly shifting towards industry and energy services. These activites may become the largest emitters of N _2 O in future. Yet, few attempts have been made to estimate long-term direct N _2 O emission from fuel combustion for the different energy-consuming sectors in the South Asian region. Therefore, the present study developed a comprehensive sectoral N _2 O emission inventory for South Asian countries for the time period of 1990–2017, with projections till 2041. It revealed that the average N _2 O emission from fuel combustion in the South Asia region is about 40.96 Gg yr ^−1 with a possible uncertainty of ±12 Gg yr ^−1 , showing an increase of more than 100% from 1990 to 2017. Although India is the major contributor, with an average of 34 Gg yr ^−1 of N _2 O emissions, in terms of growth, small countries like Bhutan and Maldives are dominating other South Asian countries. Sector-wise, the residential sector contributed a maximum emission of 14.52 Gg yr ^−1 of N _2 O but this is projected to reduce by more than 50% by 2041. This is because of the successful promotion of cleaner fuels like liquefied petroleum gas over more polluting fuelwood. Power generation contributed 9.43 Gg yr ^−1 of N _2 O emissions, exhibiting a maximum growth of 395%, followed by road transport (289%) and industry (231%). Future N _2 O emissions from transport, power and industry are projected to rise by 2.8, 3.3, and 23.9 times their 2017 estimates, respectively, due to the incapability of current policies to combat rising fossil fuel consumption. Mitigation options, such as replacing diesel and compressed natural gas vehicles with electricity-driven vehicles, can decelerate N _2 O emissions to 45% by 2041 for road transport. A 41% reduction is possible by displacing coal with renewables in the power and industry sectors. Overall, the South Asian contribution to global N _2 O emissions has enlarged from 2.7% in 1990 to 5.7% in 2007–2016, meaning there is an urgent need for N _2 O emission mitigation in the region.

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