Physico - Chemical Analysis of Macro & Micro Elements of Soils of Various Sites around Cement Industry in Rae Bareli District, UP, India

Authors

  • Sarika Bajpai Assistant Professor, Department of Chemistry, CIPET IPT, Lucknow, Uttar Pradesh., India Author
  • Krishna Narayan Assistant Professor Department of Mechanical Engineering, CIPET IPT, Lucknow, Uttar Pradesh, India Author

DOI:

https://doi.org/10.55524/ijirem.2023.10.3.24

Keywords:

Soils, Cement, Dust, AAS (Atomic Absorption Spectrophotometer), pH, Heavy metals

Abstract

The study undertaken during the year 2021 –2022 (July to April), deals with thorough chemical  investigation of soil samples collected from different study  sites around cement industry in varying seasons, located in  Raebareli District. Samples estimated in a regular interval of  3 months (July, Oct, Jan & April) for seasonal variations.  The dust emitted from the Cement Company, located in  Raebareli, gets deposited in course of time over the soil,  leaves and forms a grey cover on the surrounding soils. The  concentration of micro nutrient Fe, Cr, Zn, Cu is very high  in most of the sampling sites. Extremely high concentration  of Fe (60 to 200 ppm) and Cr (72 to 99 ppm) reported almost  in all seasons. pH showed highly alkaline (8.2 to 11.3) nature  of soil.  

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References

Allen S.E.H.M. Grimshaw and A.P. Rawland (1986), Methods in Plant Ecology (Eols P.D. Moore and S.B. Champmen) pp 285 – 344.

Saima jadoon, A.A.Amin, Arif malik & Hamza kamal (2016), Soil Pollution by the Cement Industry in the Bazian Vicinity, Kurdistan Region, Journal of Environmental and Analytical Toxicology, 06(06)

Ashwini A. Chitragar, Sneha M.Vasi, Sujata N., Akshata J. Katiyar & Taradevi I.H. (2016), Nutrients detection in the soil : review paper. International journal on emerging technologies (special issue on ICRIET – 2016) 7 (2): 257 – 260.

O.E.Ade-Ademilua & D.A.Obalola (2008),The effect of cement dust pollution on Celosia Argentea ( Lagos spinach) plant, Journal of environmental science and technology, vol 1, issue 2, pp: 47-55.

Dhanapriya M., Maheswari R. (2015), Estimation of micro and macro nutrients in the soil of remote areas. Journal of chemical and pharmaceutical sciences and management. ISSN: 0974-2115.

Goswami, N.N. (1999). Priorities of soil fertility and fertilizer use research in India.

J.L.Prameena sheeja (2015), Assessment of macro and micronutrients in soils from mannargudi area, thiruvarur district, Tamilnadu, India,Res. J. Chem. & Environ. Sci. vol 3 (6) dec. 2015: 32-37.

Kanwar, J.S. (1997), Soil and water management. The base of food security and sustainability. J.Indian Soc. Of Soil Sci., 45 (3): 417 – 428.

Olsen, S.R. & Sommer, L.E. (1982), Phosphorus in methods of soil analysis part 2 (Eds. A.L. Page et al.) Agron 9 Am Soc Agron, Madison, Wiscosin, 403 – 430.

Silva, Marcos de Paula, Washington Santos Silva and Gustavo Augusto Lacorte (2021), Deposition of Potentially Toxic Metals in the Soil from Surrounding Cement Plants in a Karst Area of Southeastern Brazil Thiago Augusto da Costa. Article, MDPI, 2021, 1, 137–150.

Prasad R. & Shukla, L.M. (1996), Absorption of Zn in soil in presence of Cd and vice versa, Jour. Of Indian Soc. Of soil sci. Vol. 44. No. 3 pp 516 – 518.

Schmidt,J.P. (1997), Understanding phytotoxicity thresholds for trace elements in land – applied sewage sludge. J. Environ. Qual. 26: 4 – 10.

Sharma, B.M. & Jha, S.N. (1989). Comparative studies on some salt affected soils. J. Indian Soc. Of Soil Sci. 37: 524 – 531.

Sharma,K.C. Krantz, B.A.Brown, A.L. & Quick, J. (1968). Interaction of Zn & P in top & root of corn & tomato. Agron. J. 60: 453 – 456.

Siedlecka A. (2014) some aspects of interactions between heavy metals and plant mineral nutrients. Acta soc bot. poo. 2014, 64: 265 – 273.

K.M.Banat, F.M.Howari and A.A.Al-Hamad, Heavy metals in urban soils of central Jordan should we worry about their Environmental risks’. Environmental Research vol. 97, 2005, pp 258-273.

Van Slycken S., Wierinck I, Meer E, Peene A., Michels E, Adriaensen K., Rutters A., V. J, Dnlaing G, W. I, V.Dael M, V.P.S, Tack FML safe use of metal – contaminated agriculture land by cultivation of energy maize. Environmental Pollution, 2013, 178: 375 – 380 doi: 10.1016/ J.Env pol. 2013.03.032.

Walkley, A. & I.A. Black (1934). An examination of the Degitijareff method for determining soil organic matter & a proposed modification of the chromic acid titration method. Soil Science, 37: 29 – 38.

A.Mandal & M. Voutchkov (2011), Heavy Metals in Soils around the Cement Factory in Rockfort, Kingston, Jamaica. International Journal of Geosciences, vol. 2, no. 1, 48-54, feb. 2011.

R.Eugene Lamare & O.P.Singh (2020), Effect of cement dust on soil physico-chemical properties around cement plants in Jaintia hills, Meghalaya. Environmental Engineering research, 25(3): 409-417

Shovkat kholdorov, Zafarjon jabbarov, Ilhomjon aslanov, Bakhrom jobborov & Zoyr rakhmatov (2021) Analysing effect of cement manufacturing industry on soils and agricultural plants. E3S Web of conference 284, (2021).

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Published

2023-06-30

How to Cite

Physico - Chemical Analysis of Macro & Micro Elements of Soils of Various Sites around Cement Industry in Rae Bareli District, UP, India . (2023). International Journal of Innovative Research in Engineering & Management, 10(3), 159–163. https://doi.org/10.55524/ijirem.2023.10.3.24