Consideration of Contamination Status of Soils within the Vicinity of Automobile Workshops in Warri, Delta State, Nigeria
Science Journal of Chemistry
Volume 6, Issue 4, August 2018, Pages: 56-65
Received: Jul. 17, 2018;
Accepted: Aug. 20, 2018;
Published: Oct. 26, 2018
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Doris Fovwe Ogeleka, Department of Chemistry, Federal University of Petroleum Resources, Effurun, Nigeria
Oghenekohwiroro Edjere, Department of Environmental Management and Toxicology, Federal University of Petroleum Resources, Effurun, Nigeria
Ogechi Okokon-Ndem Nmai, Department of Production Programming and Quality Control, Warri Refining and Petrochemical Company, Warri, Nigeria
Prisca Ezeogu, Department of Chemistry, Federal University of Petroleum Resources, Effurun, Nigeria
Felix Ebodaghe Okieimen, University of Benin, Geo-Environmental and Climate Change Adaptation Research Centre, Benin City, Nigeria
This research appraised the extent of contamination in soils within the vicinity of automobile workshops in Warri, Delta State, Nigeria. This was with the view of ascertaining the effects of the estimated contamination would have on the quality of soils and terrestrial organisms in the impacted soils. The soils were moderate to slightly acidic with a range from 5.42 ± 0.04 to 6.41 ± 0.13. Zinc contamination in the soils was very severely contaminated (C/P index 0.85), lead had very slight contamination index of 0.11 while copper was moderated polluted with a C/P index value of 2.57. The soils had contamination factor (CF) greater than 6 in all the metals, indicating very high contamination. The degree of contamination was 163.25, implying very high degree of contamination. The pollution load index value of 5.47 obtained for n=3 (metals) showed that the soils had very intense perturbation. Iron being relatively abundant in nature has no C/P value as the lists of standards formulated by Department of Petroleum Resources (DPR) excludes iron. Contamination factor obtained for TPH varied from 41.88 to 47.27. The soils were rated to be excessively contaminated with petroleum hydrocarbons. There was significant variations between the controls and the contaminated soils at levels of P =.05. The impacted soils could have detrimental effects on the quality of soils and terrestrial organisms within and around automobile workshops.
Doris Fovwe Ogeleka,
Ogechi Okokon-Ndem Nmai,
Felix Ebodaghe Okieimen,
Consideration of Contamination Status of Soils within the Vicinity of Automobile Workshops in Warri, Delta State, Nigeria, Science Journal of Chemistry.
Vol. 6, No. 4,
2018, pp. 56-65.
A. B. Busari, S. S. Kukal, A. Kaur, R. Bhatt, A. A. Dulazi. Conservation tillage impacts on soil, crop and the environment. International Soil and Water Conservation Research. 3 (2015) 119-129.
I. Oguntimehin, K. Ipinmorotie. Profile of heavy metals from automobile workshops in Akure, Nigeria. Journal of Environmental Science and Technology. 1 (2008) 19-26.
EEA (European Environment Agency). Progress in management of contaminated sites (CSI 015).. Assessment Published July 2005; Kongen, Ytorv, 6 DK-1050, Denmark (2007).
A. S. Abdulkareem, A. S. Afolabi, S. O. Ahanonu, T. Mokrani. Effect of treatment methods on used lubricating oil for recycling purposes. Energy sources, Part A: Recovery. Utilization and Environmental Effects. 6 (2014) 966-973.
G. O. Anoliefo, D. E. Vwioko. Tolerance of Chromolema odorota (L.) K and R. grown in soil contaminated with spent lubricant oil. Journal of Crop Bioscience. 1 (2001) 20-24.
J. Kayode, A. A. Oyedeji, O. Olowoyo. Evaluation of the effect of pollution with spent lubricant oil on the physical and chemical properties of soil. Pacific Journal of Science and Technology. 10(1) (2009) 387-39.
B. O. Okonokhua, B. Ikhajiagbe, G. O. Anoliefo, T. O. Emede. The effects of mechanic waste on soil properties and growth of maize (Zea mays L.). Journal of Applied Science and Environmental Management. 11(3) (2007) 147-152.
V. J. Odjegba, A. O. Sadiq. The environment: Effect of mechanic waste on the growth parameters. Chlorophyll and protein levels of Amaranthus hybridus L. J. Environmental Science. 22(1) (2002) 23-28.
S. C. Ugoh, L. C. Moneke. Isolation of bacteria from engine oil contaminated soils in auto mechanic workshops in Gwagwalada, Abuja, FCT - Nigeria. Academia Arena. 3(5) (2011) 28-33.
V. N. Ojeh. Thermal comfort characteristics in Warri and environs, Delta State, Nigeria, an unpublished M. Sc Dissertation in the Department of Geography and Regional Planning, Delta State University, Abraka (2011).
B. L. Folsom, C. R. Lee, D. J. Bates. Influence of disposal environment on availability and plant uptake of heavy metals in dredged material. Technol. Rep. EL-81-12. US Army Corps of Engineers Waterways Experiment Station, Vicksburg, MS (1981).
A. Walkley, I. A. Black. An examination of Degtjareff method for determining soil organic matter and proposed modification of the chronic acid and titration method. Soil Science. 37 (1934) 29-38.
USEPA (United State Environmental Protection Agency). Methods for chemical analysis of water and wastes. 3rd Edition, Environmental Protection Agency, Environmental Monitoring Systems. Laboratory-Cincinnati (EMSL-Ci), Cincinnati, Ohio 45268, EPA-600/4-79-020, Method 413.1 (1983).
IITA (International Institute of Tropical Agriculture). Selected methods for soil and plant analysis. IITA press, Ibadan, Nigeria. Manual Series. 1 (1984) 10-50.
R. Lacatusu. Appraising levels of soil contamination and pollution with heavy metals. In: Land information system for planning the sustainable use of land resources. H. J. Heinike, W. Eckelman, A. J. Thomasson, R. J. A. Jones, L. Montanarella and B. Buckley (Eds.), European Communities, Luxembourg, pp: 393-402 (1998).
DPR (Department of Petroleum Resources). Environment Guidelines and Standards for the Petroleum Industry in Nigeria (EGASPIN) Revised Edition (2002).
P. S. Harikumar, U. P. Nasir and R. M. P. Mujeebu. Distribution of heavy metals in the core sediments of a tropical wetland system. International Journal of Environmental Science Technology. 6(2) (2009) 225-232.
C. da Silveira Fiori, A. P. de Castro Rodrigues, R. E. Santelli, R. C. Cordeiro, R. G. Carvalheira, P. C. Araújo, Z. C. Castilhos, E. D. Bidone. Ecological risk index for aquatic pollution control: a case study of coastal water bodies from the Rio de Janeiro State, southeastern Brazil. Geochimica Brasiliensis. 27 (2013) 24-36.
F. E. Okieimen. Heavy metals enrichment, distribution and availability in soils adjacent to anthropogenic point source: Wood treatment site in Benin City. Monograph by GeoEnvironmental and Climate change adaptation research centre, Benin City. pp 47 – 52 (2014).
A. H. M. J. Al Obaidy, A. H. Talib, S. R. Zaki. Environmental assessment of heavy metal distribution in sediments of Tigris River within Baghdad City. International Journal of Advanced Research. 2 (2014) 947-952.
Y. B. Yang, L. B. Sun. Status and control counter measures of heavy metal pollution in urban soil. Environmental Protection Science. 35(4) (2009) 79-81.
D. E. D. Kadem, O. Rached, A. Krika, Z. Gheribi-Aoulmi. Statistical analysis of vegetation incidence on contamination of soils by heavy metals (Pb, Ni and Zn) in the vicinity of an iron steel industrial plant in Algeria. Environmetrics. 15 (2004) 447-462.
N. J. McKenzie, D. J. Jacquier, R. F. Isbell, K. L. Brown. Australian soils and landscapes: An illustrated compendium. CSIRO Publishing: Collingwood, Victoria (2004).
K. Fujii, S. Funakawa, T. Kosaki. Soil acidification: Natural processes and human impact. Pedologist. 55 (2012) 415-425.
M. Tomašić, Ţ. Zgorelec, A. Jurišić, I. Kisić. Cation exchange capacity of dominant soil types in the Republic of Croatia. Journal of Central European Agriculture. 14 (2013) 937-951.
G. Moore, P. Dolling, B. Porter, L. Leonard. Soil acidity. In soil guide. A handbook for understanding and managing agricultural soils. (Ed. G Moore) Agriculture Western Australia Bulletin No. 4343 (1998).
A. A. Amusan, V. D. Ige, R. Oluwale. Characteristics of soils and crops uptake of metals in municipal waste dump in Nigeria. J. Hum. Ecol. 17 (2005) 167 -171.
O. B. Ojuederie, O. O. Babalola. Microbial and plant-assisted bioremediation of heavy metal polluted environments: A Review. International Journal of Environmental Research and Public Health. 14 (2017) 1504-1530.
J. H. Duffus. Heavy metals “a meaningless term” (IUPAC Technical Report). Pure Applied Chemistry. 74 (2002) 793-807.
B. A. Adelekan, K. D. Abegunde. Heavy metals contamination of soil and groundwater at automobile mechanic villages in Ibadan, Nigeria. International Journal of the Physical Sciences. 6(5) (2011) 1045-1058.
A. E. Omotayo, O. Y. Ojo, O. O. Amund. Crude oil degradation by microorganisms in soil composts. Research Journal of Microbiology. 7 (2012) 209-218.
L. Jarup. Hazards of heavy metal contamination. British Medical Bulletin. 68(1) (2003) 167-182.
O. M. Adedokun, A. E. Ataga. Effect of amendment and bioaugumentation of soil polluted with crude oil automotive gasoline and mechanic waste on the growth of cowpea (Vigna unguiculata L. walp). Scientific Research. 2(5) (2007) 1147-1149.
D. E. Vwioko, G. O. Anoliefo, S. D. Fashemi. Metals concentration in plant tissues of Ricinus communis L. (Castor oil) grown in soil contaminated with spent lubricant oil. J. Appl. Sci. Environ. Mgt. 10 (2006) 127-134.
S. Bello, Y. I. Zakari, I. G. E. Ibeanu, B. G. Muhammad. Evaluation of heavy metal pollution in soils of Dana Steel limited dumpsite, Katsina State, Nigeria using Pollution load and degree of contamination indices. American Journal of Engineering Research. 4 (12) (2015) 161-169.
A. A. Adeniyi, J. A. Afolabi. Determination of total petroleum hydrocarbons and heavy metals in soils within the vicinity of facilities handling refined petroleum products in Lagos metropolis. Environ Int. 28(1-2) (2002) 79-82.
L. F. Martins, R. S. Peixoto. Biodegradation of petroleum hydrocarbons in hypersaline environments. Braz. J. Microbiol. 43 (2012) 865–872.
J. L. Reeves and M. A. Liebig. Depth matters: soil pH and dilution effects in the northern Great Plains. Soil Science Society of America Journal. 80 (2016) 1424–1427.
N. K. Fageria and A. Moreira. The role of mineral nutrition on root growth of crop plants. Advances in Agronomy. 110 (2011) 251-331.
N. K. Fageria, V. C. Baligar. Evaluation of tropical legume cover crops for copper use efficiency. American Journal of Plant Sciences. 5(9) (2014) 1236-1247.