Delineation of Oil – Polluted Sites in Ibeno LGA, Nigeria, Using Microbiological and Physicochemical Characterization
Mobil Producing Nigeria Unlimited (MPNU), a
subsidiary of ExxonMobil and the highest crude oil & condensate
producer in Nigeria has its operational base and an oil terminal, the
Qua Iboe terminal (QIT) located at Ibeno, Nigeria. Other oil
companies like Network Exploration and Production Nigeria Ltd,
Frontier Oil Ltd; Shell Petroleum Development Company Ltd; Elf
Petroleum Nigeria Ltd and Nigerian Agip Energy, a subsidiary of the
Italian ENI E&P operate onshore, on the continental shelf and in deep
offshore of the Atlantic Ocean, respectively with the coastal waters of
Ibeno, Nigeria as the nearest shoreline. This study was designed to
delineate the oil-polluted sites in Ibeno, Nigeria using
microbiological and physico-chemical characterization of soils,
sediments and ground and surface water samples from the study area.
Results obtained revealed that there have been significant recent
hydrocarbon inputs into this environment as observed from the high
counts of hydrocarbonoclastic microorganisms in excess of 1% at all
the stations sampled. Moreover, high concentrations of THC, BTEX
and heavy metals contents in all the samples analyzed corroborate the
high recent crude oil input into the study area. The results also
showed that the pollution of the different environmental media
sampled were of varying degrees, following the trend: ground water
> surface water > sediments > soils.
[1] I. R. Udotong. Oil-impacted sites in Ibeno LGA: A Technical Report
submitted by Page Environmental Ltd to Ministry of Niger Delta
Affairs, Abuja. Unpublished. 2010.
[2] National Oil Spill Detection and Response Agency, NOSDRA. National
Oil Spill Detection and Response Agency Act . Act No. 15 of 2006.
Abuja. 2011. Pp. 128.
[3] Amnesty International Nigeria: Petroleum Pollution and poverty in the
Niger Delta. Amnesty Int’l, London. 2009.
[4] I. R. Udotong, J. I. R. Udotong and O. U. M. John. Delineation of Oilpolluted
sites in Ibeno. II. Using geophysical techniques. Unpubllished.
2015.
[5] J. M. Anderson and J. S. I. Ingram. Tropical soil Biology and Fertility: A
handbook of methods. 2nd edition. United Kingdom. CAB.
International. 1993. Pp. 47 – 49.
[6] Department of Petroleum Resources, DPR. Environmental Guidelines
and Standards in the Petroleum Industries in Nigeria, EGASPIN. DPR,
Lagos. 2002.
[7] American Public Health Association; APHA. Standard Methods for the
examinations of water and wastewaters, 17th ed. Publishers: American
Public Health Association; American Water Works Association and
Water Pollution Control Federation. 1989.
[8] O. H. Collins and F. M. Lyne. Microbiological Methods. Great Britain:
Butterworth and Company Limited, 1976.
[9] E.F Harrigan and M.E. McCance. ῀Laboratory Methods in Food and
Dairy Micobiology. London: Academic press, 1976.
[10] A. L. Demain and J. E. Davies (eds). Manual of industrial Microbiology
and Biotechnology 2nd edition. Washington DC: American Society for
Microbiology Press, 1999.
[11] O. U. Eka and N.M. Fogathy. Descriptive studies on a Streptomyces
species part 1. description and some properties of the microorganisms.
West African Journal of Biological and Applied Chemistry Vol. 3 (.5.):
11-17, 1972.
[12] R. Cruickshank, J.P. Duguid, R. P. Mamion, and R. H. A. Swain.
Medical Microbiology. Vol. II, London: Churchill, Livngstone, 1976.
[13] J. G. Holt; N. R. Kieg; P. H.A. Snaeath, J. T. Staley and S. T. Williams.
Bergey’s Manual of Determinative Bacteriology. 9thedition, Baltimore,
USA: Williams and Wilkin Publishers, 1994.
[14] K.H Domsch, H. Gams and T. H. Anderson. Compendium of Soil Fungi
London: Academy Press, 1980.
[15] H. L. Barnet and B. B. Hunter, IIustrated Genera of Imperfect Fungi. 4th
Edition USA: Macmillan Publishing Company, 1987.
[16] G. J. Bouyoucous. Improved hydrometer method for making particle
size analysis of soils. Agronomy Journal Vol. 54, Pp464-465, 1962. [17] E. J. Udo and J. A. Ogunwale. Laboratory Manual for the Analysis of
Soil, plant and Water samples. 2nd edition. Ibadan: University Press,
1986.
[18] M. L. Jackson. Soil Chemical Analysis .Englewood Cliffs, New Jersey:
Prenctice Hall Inc. 1962, Pp. 110-112.
[19] Association of Official Analysis Chemists (AOAC). Methods of
Analysis. 12th edition. Washington DC: AOAC, 1990.
[20] R. H. Bray and L.T. Jurtz. Determination of total organic and available
forms of phosphorus in soils. Soil science Vol. 59, Pp 39-54-1945.
[21] J. Murphy and J. P. Rile. Trace metal speciation analytical Methods and
problems in Analytical Chemistry, Act 227, Pp. 31-36, 1962.
[22] A. Walkely and I. A. Black. An examination of the Degtjereff method
for determining Soil organic matter and a proposed modification of the
chronic and titration method. Soil Science Vol. 37, Pp. 29-38, 1934.
[23] R.R Sokal and F. J. Rolf Biometry: The principle and practice of
Statistics in Biological Research. 2nd edition. New York. USA: w. H.
Freeman Company, 1981.
[24] I. R. Udotong and O. J. Akpanekon (a). “Microbiological and
Physicochemical studies of wetland soils in Itu, Nigeria”. Nigerian
Journal of Microbiology. 21: 1598 - 1610. 2007a.
[25] I. R. Udotong and O. J. Akpanekon (b). “Microbiological and
Physicochemical studies of Inland wetland soils in Ikot Ekpene,
Nigeria”. Nigerian Journal of Microbiology. 21: 1623 - 1635. 2007b.
[26] RPI. Environmental Baseline Studies for the establishment of control
Criteria And Standards Against Petroleum-related Pollution in Nigeria.
Final Report Submitted to the Nigerian National Petroleum Corporation
(NNPC), Lagos. 1985.
[27] Alloway, B. J. The origins of heavy metals in soils. In Heavy Metals in
Soils (ed. Alloway). John Wiley and Sons Inc. Glasgow and London. Pp
29-39. 1990.
[28] Walker, J D. and Colwell, R. R. Biodegradation rates of components of
Petroleum. Canadian J of Microbiology 22: 1209-1213. 1976.
[1] I. R. Udotong. Oil-impacted sites in Ibeno LGA: A Technical Report
submitted by Page Environmental Ltd to Ministry of Niger Delta
Affairs, Abuja. Unpublished. 2010.
[2] National Oil Spill Detection and Response Agency, NOSDRA. National
Oil Spill Detection and Response Agency Act . Act No. 15 of 2006.
Abuja. 2011. Pp. 128.
[3] Amnesty International Nigeria: Petroleum Pollution and poverty in the
Niger Delta. Amnesty Int’l, London. 2009.
[4] I. R. Udotong, J. I. R. Udotong and O. U. M. John. Delineation of Oilpolluted
sites in Ibeno. II. Using geophysical techniques. Unpubllished.
2015.
[5] J. M. Anderson and J. S. I. Ingram. Tropical soil Biology and Fertility: A
handbook of methods. 2nd edition. United Kingdom. CAB.
International. 1993. Pp. 47 – 49.
[6] Department of Petroleum Resources, DPR. Environmental Guidelines
and Standards in the Petroleum Industries in Nigeria, EGASPIN. DPR,
Lagos. 2002.
[7] American Public Health Association; APHA. Standard Methods for the
examinations of water and wastewaters, 17th ed. Publishers: American
Public Health Association; American Water Works Association and
Water Pollution Control Federation. 1989.
[8] O. H. Collins and F. M. Lyne. Microbiological Methods. Great Britain:
Butterworth and Company Limited, 1976.
[9] E.F Harrigan and M.E. McCance. ῀Laboratory Methods in Food and
Dairy Micobiology. London: Academic press, 1976.
[10] A. L. Demain and J. E. Davies (eds). Manual of industrial Microbiology
and Biotechnology 2nd edition. Washington DC: American Society for
Microbiology Press, 1999.
[11] O. U. Eka and N.M. Fogathy. Descriptive studies on a Streptomyces
species part 1. description and some properties of the microorganisms.
West African Journal of Biological and Applied Chemistry Vol. 3 (.5.):
11-17, 1972.
[12] R. Cruickshank, J.P. Duguid, R. P. Mamion, and R. H. A. Swain.
Medical Microbiology. Vol. II, London: Churchill, Livngstone, 1976.
[13] J. G. Holt; N. R. Kieg; P. H.A. Snaeath, J. T. Staley and S. T. Williams.
Bergey’s Manual of Determinative Bacteriology. 9thedition, Baltimore,
USA: Williams and Wilkin Publishers, 1994.
[14] K.H Domsch, H. Gams and T. H. Anderson. Compendium of Soil Fungi
London: Academy Press, 1980.
[15] H. L. Barnet and B. B. Hunter, IIustrated Genera of Imperfect Fungi. 4th
Edition USA: Macmillan Publishing Company, 1987.
[16] G. J. Bouyoucous. Improved hydrometer method for making particle
size analysis of soils. Agronomy Journal Vol. 54, Pp464-465, 1962. [17] E. J. Udo and J. A. Ogunwale. Laboratory Manual for the Analysis of
Soil, plant and Water samples. 2nd edition. Ibadan: University Press,
1986.
[18] M. L. Jackson. Soil Chemical Analysis .Englewood Cliffs, New Jersey:
Prenctice Hall Inc. 1962, Pp. 110-112.
[19] Association of Official Analysis Chemists (AOAC). Methods of
Analysis. 12th edition. Washington DC: AOAC, 1990.
[20] R. H. Bray and L.T. Jurtz. Determination of total organic and available
forms of phosphorus in soils. Soil science Vol. 59, Pp 39-54-1945.
[21] J. Murphy and J. P. Rile. Trace metal speciation analytical Methods and
problems in Analytical Chemistry, Act 227, Pp. 31-36, 1962.
[22] A. Walkely and I. A. Black. An examination of the Degtjereff method
for determining Soil organic matter and a proposed modification of the
chronic and titration method. Soil Science Vol. 37, Pp. 29-38, 1934.
[23] R.R Sokal and F. J. Rolf Biometry: The principle and practice of
Statistics in Biological Research. 2nd edition. New York. USA: w. H.
Freeman Company, 1981.
[24] I. R. Udotong and O. J. Akpanekon (a). “Microbiological and
Physicochemical studies of wetland soils in Itu, Nigeria”. Nigerian
Journal of Microbiology. 21: 1598 - 1610. 2007a.
[25] I. R. Udotong and O. J. Akpanekon (b). “Microbiological and
Physicochemical studies of Inland wetland soils in Ikot Ekpene,
Nigeria”. Nigerian Journal of Microbiology. 21: 1623 - 1635. 2007b.
[26] RPI. Environmental Baseline Studies for the establishment of control
Criteria And Standards Against Petroleum-related Pollution in Nigeria.
Final Report Submitted to the Nigerian National Petroleum Corporation
(NNPC), Lagos. 1985.
[27] Alloway, B. J. The origins of heavy metals in soils. In Heavy Metals in
Soils (ed. Alloway). John Wiley and Sons Inc. Glasgow and London. Pp
29-39. 1990.
[28] Walker, J D. and Colwell, R. R. Biodegradation rates of components of
Petroleum. Canadian J of Microbiology 22: 1209-1213. 1976.
@article{"International Journal of Chemical, Materials and Biomolecular Sciences:70400", author = "Ime R. Udotong and Justina I. R. Udotong", title = "Delineation of Oil – Polluted Sites in Ibeno LGA, Nigeria, Using Microbiological and Physicochemical Characterization", abstract = "Mobil Producing Nigeria Unlimited (MPNU), a
subsidiary of ExxonMobil and the highest crude oil & condensate
producer in Nigeria has its operational base and an oil terminal, the
Qua Iboe terminal (QIT) located at Ibeno, Nigeria. Other oil
companies like Network Exploration and Production Nigeria Ltd,
Frontier Oil Ltd; Shell Petroleum Development Company Ltd; Elf
Petroleum Nigeria Ltd and Nigerian Agip Energy, a subsidiary of the
Italian ENI E&P operate onshore, on the continental shelf and in deep
offshore of the Atlantic Ocean, respectively with the coastal waters of
Ibeno, Nigeria as the nearest shoreline. This study was designed to
delineate the oil-polluted sites in Ibeno, Nigeria using
microbiological and physico-chemical characterization of soils,
sediments and ground and surface water samples from the study area.
Results obtained revealed that there have been significant recent
hydrocarbon inputs into this environment as observed from the high
counts of hydrocarbonoclastic microorganisms in excess of 1% at all
the stations sampled. Moreover, high concentrations of THC, BTEX
and heavy metals contents in all the samples analyzed corroborate the
high recent crude oil input into the study area. The results also
showed that the pollution of the different environmental media
sampled were of varying degrees, following the trend: ground water
> surface water > sediments > soils.", keywords = "Microbiological characterization, oil-polluted sites,
physico-chemical analyses, total hydrocarbon content.", volume = "9", number = "6", pages = "704-5", }
