Effects of Human Activities from the Indo-Gangetic Plain on the Air Quality in the Foothills of the Himalayas

Authors

  • Nand Kishore Kirori Mal College, Department of Physics, Delhi University, New Delhi 110007, India
  • Bipin Singh Koranga Kirori Mal College, Department of Physics, Delhi University, New Delhi 110007, India
  • Atul Kumar Srivastava Indian Institute of Tropical Meteorology, Ministry of Earth Sciences, New Delhi 110060, India

DOI:

https://doi.org/10.13052/jgeu0975-1416.1313

Keywords:

Air quality, anthropogenic, aerosol optical depth, aerosol small mode fraction, Himalaya, IGP

Abstract

The relationship between surfaces that measure climatic parameters and the mass concentration of various air pollutants across the Indo-Gangetic Plain (IGP) and Himalayan foothills is investigated using three separate stations. In an industrial area of Delhi, a residential area of Shimla, and a residential area of Hisar, the simultaneous measurement of mass concentrations of air pollutants such as NO2, SO2, RSPM, and SPM, as well as the impact of surface meteorological parameters on their distributions, are investigated for the study period of January 2005 to December 2012. The seasonal variations in air pollutants were also examined. Additionally, a regression analysis between the daily mass concentration of air pollutants and metrological parameters has been carried out. The correlation coefficients between climatic factors and air pollutants were found to be positive with the exception of the correlations between wind direction and SO2 and visibility and NO2. Additionally, the time series of AOD and ASMF, two MODIS-derived daily and monthly mean columnar aerosol parameters, are examined over Delhi, Hisar, and Shimla from 2005 to 2012. The maximum and minimum AOD values for Delhi, Hisar, and Shimla, respectively, are 2.3 and 0.08, 3.5 and 0.09, and 2.6 and 0.06. However, at all three locations, ASMF fluctuated between 0 and 1. The highest values of AOD were observed in the months of June and August, with a pattern of increasing values from January to June and a pattern of decreasing values from August to December. While an increasing pattern was seen during the post-monsoon and winter months, ASMF was found to diminish from February up to April or May. A back-trajectory analysis of the air mass is used to examine the effects of the observed increased air pollution from the IGP over the Himalayan city of Shimla. The trajectories (23%) passing over the IGB in a southeasterly direction were seen to have an impact on Shimla.

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Author Biographies

Nand Kishore, Kirori Mal College, Department of Physics, Delhi University, New Delhi 110007, India

Nand Kishore is a Asistanat Professor in department of physics, Kirori Mal college, University of Delhi. His research work is in Atmosphere Physics from Indian Institude of tropical and Meterology (IITM), Pune with collobration of Gurukul Gangari Viswidayalaya, Haridawar since 2012 and completed Ph.D degree in atmosphere Physics in 2018. He is teaching the basic physics like thermal physics, wave and optics, Quantum Physics, Electronics, Solid state physics etc at graduate level in Kirori Mal college, DU last 14 years. His research work is associated with Aerosol pollutant like No2, So2, RSPM and SPM and metrological parameters like temperature, wind speed, wind direction, Relative humidity etc.

Bipin Singh Koranga, Kirori Mal College, Department of Physics, Delhi University, New Delhi 110007, India

Bipin Singh Koranga is Professor in the Department of Physics, Kirorimal College, University of Delhi. He joined the Theoretical Physics Group at the Indian Institute of Technology Bombay in 2006 and earned his Ph.D. in physics (neutrino masses and mixings) there in 2007. For the past 17 years, he has been instructing graduate-level students in foundational physics and mathematical physics courses. The genesis of the cosmos, physics beyond the standard model, theoretical nuclear physics, quantum mechanical neutrino oscillation, and a few astrological issues are among his areas of interest. He has more than 60 scientific publications to his credit in different international journals. His current areas of focus in study are linked phenomenology and neutrino mass theories.

Atul Kumar Srivastava, Indian Institute of Tropical Meteorology, Ministry of Earth Sciences, New Delhi 110060, India

Atul Kumar Srivastava is presently working as Scientist_E in Indian Institude of Tropical Meterology (IITM), New Delhi. He has completed B.Sc From Puranchal University. In 1998 in Mathematics and Physics. He has completed M.Sc From Banaras Hindu University. In 2001 in Geophysics (Meteorology). He has completed Ph.D From Pune University. In 2008 in Atmospheric Physics. His research work is associated with Aerosol pollutant like No2, So2, RSPM and SPM and metrological parameters like temperature, wind speed, wind direction, Relative humidity etc.

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Published

2025-02-05

How to Cite

Kishore, N., Koranga, B. S., & Srivastava, A. K. (2025). Effects of Human Activities from the Indo-Gangetic Plain on the Air Quality in the Foothills of the Himalayas. Journal of Graphic Era University, 13(01), 49–74. https://doi.org/10.13052/jgeu0975-1416.1313

Issue

2025: Vol 13 Iss 1

Section

Articles