Environmental Science And Technology - Research Publications

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Author: search.filters.author.Kumar, AjayHas files: No

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    Temporal profile of ionic species and n-alkanes composition of PM10 in a rural environment of Western Himalaya
    (Elsevier B.V., 2023-10-13T00:00:00) Kumar, Ajay; Attri, Arun K.
    The temporal profile of PM10 and its composition comprising water-soluble ionic species and n-alkanes studied over the 14 months was segregated into three seasons: winter, summer, and monsoon. The average PM10 concentration exceeds the prescribed National PM10 limits in summer and winter. The PM10 concentration was highest in summer, followed by winter, and lowest in monsoon. Water-soluble inorganic ionic species� major cations (Ca2+, Mg2+, Na+, K+, and NH4+) and anions (F?, Cl?, NO3? and SO42?) contributed an average 30.7% to PM10. The ionic species displayed significant variation, with the highest concentration in winter and the lowest in the monsoon. The secondary inorganic ions, SO42?, NO3?, and NH4+, contributed 84% to the total ionic mass. The ion balance study revealed a strong correlation between anion and cation charge equivalents, suggesting their main contribution to PM10. The neutralization of NO3? + SO42? with NH4+ suggested, NH4+ being the main neutralizing species. n-alkanes concentration in PM10 was significant and showed seasonal variation, highest in the winters and lowest in monsoon. The source profiling of PM10 components, using statistical correlation, regression, and principal component analysis (PCA), revealed solid-fuel biomass, soil dust, and brick kilns and transported materials as major sources. � 2023 Turkish National Committee for Air Pollution Research and Control
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    Multi-parametric groundwater quality and human health risk assessment vis-�-vis hydrogeochemical process in an Agri-intensive region of Indus basin, Punjab, India
    (Taylor and Francis Ltd., 2021-06-14T00:00:00) Jaswal, Vijay; Kumar, Ravishankar; Sahoo, Prafulla Kumar; Mittal, Sunil; Kumar, Ajay; Sahoo, Sunil Kumar; Nandabalan, Yogalakshmi Kadapakkam
    The groundwater quality of the Indus basin of Punjab, India, is a serious concern due to the existence of toxic contaminants. Although, this contamination has been documented in some studies, some part of this basin is scantily explored. This is true for the Fazilka district of Malwa region, Punjab. In the present study, a total of 78 groundwater samples were collected from this district to evaluate their suitability for drinking and irrigation purpose, to understand the current hydrogeochemical processes involved and assess the human health risk status of the region. The results of the water quality index (WQI) revealed that majority of the groundwater samples were of poor quality with U, F?, SO42?, and NO3? exceeding the BIS limit in 60%, 94%, 43%, and 19% of samples, respectively. The groundwater geochemistry is mainly influenced by rock-water interaction. Ca-Mg-Cl water type is identified as the dominant hydrogeochemical facies, followed by Ca-Mg-SO42? and Na-Cl types. The Mg2+ and Na+ were identified as the major cations, while SO42? and HCO3? existed as the dominant anions. Furthermore, the results of Principal Component Analysis (PCA), Hierarchical cluster and Pearson correlation matrix (PCM) analyses corroborated the elevated level of U, F?, SO42? with geogenic activity supplemented with agrochemical activities. The annual effective intake dose of U exceeded the WHO recommended mean annual effective dose of U (100 �Sv y?1) for all age groups with infants recording the highest dose of U (151 �Sv y?1). Moreover, the non-cancer risk of U and F? exceeded the USEPA limit (HQ-1) in majority of the sites. The high cumulative risk of non-carcinogenic contaminants (HI-4.6) in the entire study area is a matter of grave concern. � 2021 Informa UK Limited, trading as Taylor & Francis Group.