Volume 2, Issue 6, November 2016, Page: 38-47
Spatial Dissemination of Some Heavy Metals in Soil Adjacent to Bhaluka Industrial Area, Mymensingh, Bangladesh
Abdullah Al Zabir, Department of Agricultural Chemistry, Patuakhali Science and Technology University, Dumki, Patuakhali, Bangladesh
M. Wahid U. Zzaman, Department of Agricultural Chemistry, Bangladesh Agricultural University, Mymensingh, Bangladesh
Md. Zakir Hossen, Department of Agricultural Chemistry, Bangladesh Agricultural University, Mymensingh, Bangladesh
Md. Nizam Uddin, Department of Agricultural Chemistry, Patuakhali Science and Technology University, Dumki, Patuakhali, Bangladesh
Md. Shariful Islam, Department of Agricultural Chemistry, Patuakhali Science and Technology University, Dumki, Patuakhali, Bangladesh
Md. Saiful Islam, Department of Soil Science, Patuakhali Science and Technology University, Dumki, Patuakhali, Bangladesh
Received: Aug. 27, 2016;       Accepted: Oct. 26, 2016;       Published: Nov. 21, 2016
DOI: 10.11648/j.ajasr.20160206.12      View  3339      Downloads  80
Abstract
Heavy metals released from industries causes severe environmental pollution in developing countries. This study has been conducted to evaluate the intensity of heavy metals pollution in soil at 0, 30 and 60 m distances from waste carrying canal of Bhaluka industrial area of Mymensingh, Bangladesh. Lead (Pb), chromium (Cr), copper (Cu), zinc (Zn), iron (Fe) and manganese (Mn) concentrations in soils decreased gradually with the increase of distance from waste canal. Maximum concentration was found at 60 to 0 m distance varied from 67.13–90.93, 52.23–76.73, 32.75–133.85, 61.18–422.10, 26900–36900 and 240–540 µg g-1 for Pb, Cr, Cu, Zn, Fe and Mn, respectively. Geoaccumulation index showing that the soil was moderately polluted for Pb and Zn. Pollution load index values>1.0, explaining pollution load was increased adjacent to industrial area and deteriorate the quality of surface soils day by day. Contamination factor for Pb, Cu and Zn were very high indicating these metals as the major soil pollutants came from anthropogenic sources which was supported by enrichment factor values (>5). The extent of pollution in adjacent to this industrial area implies the condition becoming worse and alarming for biota and inhabitants of that area.
Keywords
Heavy Metal, Soil Pollution, Geoaccumulation, Pollution Load Index, Enrichment Factor
To cite this article
Abdullah Al Zabir, M. Wahid U. Zzaman, Md. Zakir Hossen, Md. Nizam Uddin, Md. Shariful Islam, Md. Saiful Islam, Spatial Dissemination of Some Heavy Metals in Soil Adjacent to Bhaluka Industrial Area, Mymensingh, Bangladesh, American Journal of Applied Scientific Research. Vol. 2, No. 6, 2016, pp. 38-47. doi: 10.11648/j.ajasr.20160206.12
Copyright
Copyright © 2016 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Karim, Z., Qureshi, B. A., Mumtaz, M., Qureshi, S. (2014), “Heavy metal co ntent in urban soils as an indicator of anthropogenic and natural influences on landscape of Karachi—amultivariate spatio-temporal analysis”, Ecol. Indic., 42, 20–31.
[2]
Islam, M. S., Ahmed, M. K., Al-Mamun, M. H., Masunaga, S. (2015), “Potential ecological risk of hazardous elements in different land-use urban soils of Bangladesh”, Sci. Total Environ., 512–513: 94–102.
[3]
DOE (Department of Environment). (2001), “Bangladesh: State of Environment”, Ministry of Environment and Forest. Pub. UNEP., 1-74.
[4]
Ahmed, G., Miah, M. A., Anawar, H. M., Chowdhury, D. A., Ahmad, J. U. (2011), “Influence of multi-industrial activities on trace metal contamination: an approach towards surface water body in the vicinity of Dhaka Export Processing Zone (DEPZ)”, Environ. Monitoring Assessment, 2 (1), 1-10.
[5]
Azom, M. R., Mahmud K., Yahya S. M., Sontu A., Himon S. B. (2012) “Environmental impact assessment of tanneries: a case study of Hazaribag in Bangladesh”, Int. J. Environ. Sci. Develop., 3 (2), 152-156.
[6]
Islam, M. S., Ahmed, M. K., Al-Mamun, M. H., Masunaga, S. (2014a), “Trace metals in soil and vegetables and associated health risk assessment”, Environ. Monit. Assess., 186, 8727–8739.
[7]
Gisbert, C., Ros, R., DeHaro, A., Walker, D. J., Pilar-Bernal, M., Serrano, R., Avino, J. N. (2003), “A plant genetically modified that accumulates Pb is especially promising for phytoremediation”, Biochem. Biophysical Res. Commun., 303, 440-445.
[8]
Qingren, W., Dong, Y., Wi, Y., Liu, X., Wang, D. (2001), “Instances of soil and crop heavy metal contamination in China”, Soil Sediment Contamin., 10 (5), 497-510.
[9]
Islam, M. S., Ahmed, M. K., Al-Mamun, M. H. (2014b), “Heavy metals incereals and pulses: health implications in Bangladesh”, J. Agric. Food Chem., 62: 10828–10835.
[10]
Richards, L. A. (1969), “Diagnosis and improvement of saline and alkali soils”, US salinity laboratory staff. agricultural handbook. No.60.USDA.USA.
[11]
Page, A. L., Miller, R. H., Keeney, D. R. (1982), “Methods of soil analysis”, Part-2. Chemical and microbiological properties. 2nd edn. Soil science society of American Inc. Madison, Wisconsin, USA. pp. 403-430.
[12]
Tam, N. F. Y., Yao, M. W. Y. (1999), “Three digestion methods to determine concentrations of Cu, Zn, Cd, Ni, Pb, Cr, Mn and Fe in mangrove sediments from Sai Keng, Chek Keng and Sha Tau Kok, Hong Kong”, Bull. Env. Contam. Toxicol., 62, 708-716.
[13]
Sparks DI (Editor) (1996), “Methods of soil analysis”, Part III, Chemical methods. SSSA book series No.5, Soil science society of America. American society of agronomy, Inc. Madison, USA.
[14]
Singh, D., Chhonkar, P. K., Pandey, R. N. (1999), “Soil plant water analysis”, A method manual. IARI, New Delhi, India.
[15]
Muller, G. (1969), “Index of Geoaccumulation in sediments of the Rhine river”, Geojournal, 2 (3), 108-118.
[16]
Turekian, K. K., Wedepohl, K. H. (1961), “Distribution of the elements in some major units of the earth's crust”, Geological Soc. American Bull., 72, 175-192.
[17]
Tomlinson, D. C., Wilson, J. G., Harris, C. R., Jeffrey, D. W. (1980), “Problems in the assessment of heavy metal levels in estuaries and the formation of a pollution index”, Helgoland Marine Res., 33, 566-575.
[18]
Angula, E. (1966), “The Tomlinson Pollution Index applied to heavy metal, Mussel-Watch data: A useful index to assess coastal pollution”, Sci. Total Environ., 187, 19-56. http://dx.doi.org/10.1016/0048-9697(96)05128-5
[19]
Huheey, J. E. (1983), “Inorganic Chemistry: Principles of Structure and Reactivity”, Harper and Row Publishers, New York, 912.
[20]
Loska, K., Cebula, J., Pelczar, J., Wiechula, D., Kwapulinski, J. (1997), “Use of enrichment and contamination factors together with geoaccumulation indexes to evaluate the content of Cd, Cu and Ni in the Rybnik water reservoir in Poland”, Water Air Soil Poll., 93, 347-365.
[21]
Atgin, R. S., El-Agha, O., Zararsiz, A., Kocatas, A., Parlak, H., Tuncel, G. (2000), “Investigation of the sediment pollution in Izmir Bay: trace elements”, Spectrochimica Acta -Part B, 55(7), 1151-1164.
[22]
Sultana, M. S., Kulsum, U., Shakila, A., Islam, M. S. (2012), “Toxic metal contamination on the river near industrial area of Dhaka”, Univer. J. Environ. Res. Technol., 2 (2), 56-64.
[23]
Kabata-Pendias, A., Pendias, H. (1992), “Trace Elements in Soils and Plants”, 2nd ed., CRC Press, London.
[24]
Naser, H. M., Sultana, S., Gomes, R., Noor, S. (2012), “Heavy metal pollution of soil and vegetable grown near roadside at Gazipur”, Bangladesh J. Agric. Res., 37 (1), 9-17.
[25]
Rafiei, B., Bakhtiari Nejad, M., Hashemi, M. and Khodaei, A. S. (2010), “Distribution of heavy metals around the Dashkasan Au mine”, Int. J. Environ. Res., 4(4), 647-654.
[26]
Ahmed, F., Katita, M., Sattar, M. A., Ishiga, H., Rahman, M. M., Bibi, M. H. (2004), “Arsenic and other thirteen heavy metal contamination of Madhupur tract soil layers”, Bangladesh J. Environ. Sci., 9, 151-156.
[27]
Addo, M. A., Darko, E. O., Gordon, C., Nyarko, B. J. B., Gbadago, J. K., Nyarko, E., Affum, H. A. and Botwe, B. O. (2012), “Evaluation of heavy metals contamination of soil and vegetation in the vicinity of a cement factory in the Volta region, Ghana”, International Journal of Science and Technology, 2(1), 40-50.
[28]
Ahmed, A. M. M., Salah, M. A. H. and Ahmed, F. E. A. (2011), Assessment of the Heavy Metals around two Municipal Solid Waste (MSW) Dumpsites, Egypt, ECO Services International, March.
[29]
Al-Oud, S. S., Nadeem, M. E. A., Al-Shbel, B. H. (2011), “Distribution of heavy metals in soils and plants around a cement factory in Riyadh City, Central Saudi Arabia”, American-Eurasian J. Agric. Environ. Sci., 11(2), 183-191.
[30]
USEPA (U. S. Environmental Protection Agency). (1999), “Screening level ecological risk assessment protocol for hazardous waste combustion facilities”, Vol. 3, Appendix E: Toxicity reference values. EPA 530-D99- 001C.
[31]
Sakawi, Z., Ariffin, M. R., Mastura, S. A. S. and Jali, M. F. M. (2013), “The analysis of heavy metal concentration per distance and depth around the vicinity of open landfill”, Research Journal of Applied Sciences, Engineering and Technology, 5 (24), 5619-5625.
[32]
Allaway, W. H. (1968), “Agronomic control over the environmental cycling of trace elements”, Advan. Agronomy, 20, 235–274.
[33]
Tahar, K., Keltoum, B. (2011), “Effects of heavy metals pollution in soil and plant in the industrial area, West Algeria”, J. Korean Chem. Soc., 55 (6), 1018-1023.
[34]
Tiwari, M. K., Samir Bajpai, S. and Dewangan, U. K. (2015), “An analytical study of heavy metal concentration in soil of an industrial region of Chhattisgarh, central India”, International Journal of Scientific and Research Publications, 5 (7), 1-8.
[35]
Fan, S. (2014), “Assessment of spatial distribution and pollution with heavy metals in roadside soils along Xi’an-baoji highway in northwest China”, Environmental Engineering and Management Journal, 13(12), 3161-3171.
[36]
Suresh G., Sutharsan P., Ramasamy V. (2012), “Assessment of spatial distribution and potential ecological risk of the heavy metals in relation to granulometric contents of Veeranam lake sediments, India”, Ecotoxicol. Env. Safety, 84, 117-124.
[37]
Sutherland, R. A. (2000), “Bed sediment-associated trace metals in an urban stream, Oahu, Hawaii”, Environ. Geol., 39, 611-627.
[38]
Selvaraj, K., Moha, V. R. Szefer, P. (2004). Evaluation of metal contamination in coastal sediments of the Bay of Bengal, India: geochemical and statistical approaches. Mar. Pollut. Bull, 49, 174-185.
[39]
Olivares-Rieumont, S., Rosa, D. D. L, Lima, L., Graham, D. W., Alessandro, K. D., Borroto, J., Martinez, F. & Sanchez, J. (2005). Assessment of heavy metal levels in Almendared River sediments-Havana City, Cuba. Water Res, 39, 3945-3953.
[40]
Yongming, H., Peixuan, D., Junji, C. & Posmentier, E. S. (2006). Multivariate analysis of heavy metal contamination in urban dusts of Xi’an, Central China. Sci. Total Environ, 355, 176-186.
[41]
Kwon, C. H., Zhu, X., Zhang, J., Knoop, L. L., Tharp, R., Smeyne, R. J., Eberhart, C. G., Burger, P. C., Baker, S. J. (2001), “Pten regulates neuronal soma size: a mouse model of Lhermitte-Duclos disease”, Nature Genetics, 29, 404-411.
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