The Malaysian Journal of Analytical Sciences Vol 10 No 1 (2006): 177 - 184

 

 

 

 

DISTRIBUTION AND CHARACTERIZATION OF HYDROCARBONS IN SEDIMENTS OF SETIU WETLAND, TERENGGANU:

A PRELIMINARY STUDY

 

Norhayati Mohd Tahir1, Hasra Masrifah Abd. Rahim1,  Mhd. Radzi Abas3 

and Mohamad Kamil Abd. Rashid2

 

1Kumpulan Penyelidikan Alam Sekitar (ERG), Jabatan Sains Kimia,

2Jabatan Sains Samudera Fakulti Sains dan Teknologi,

 Kolej Universiti Sains dan Teknologi Malaysia (KUSTEM), 21030 Kuala Terengganu, Terengganu

3Jabatan Kimia, Fakulti Sains, Universiti Malaya (UM) Kuala Lumpur

 

Abstract

Samples of surficial bottom sediment collected from 10 stations along Setiu Wetland (Terengganu) have been analysed and characterized in terms of biogenic and anthropogenic hydrocarbons. Sediment was extracted by using ultrasonic agitation methods with dichloromethane (DCM) as solvent. After removal of sulphur content using mercury treatment technique, the hydrocarbons were separated into fractions by silica-alumina column chromatography. Aliphatic and polycyclic aromatic hydrocarbons (PAHs) fractions were analysed using GC-FID and GCMS, respectively. The concentration of total identified n-alkanes in sediment ranged from 1.13 - 10.5 µg g-1   dry weight while total identified aromatic hydrocarbons ranged from 0.04 - 1.80 µg g-1  dry weight. Most of the stations exhibit the presence of C29  and C31  as Cmax  which are known to originate from epiticular waxes of higher (vascular) terrestrial plants. A distribution of n-alkanes  in  the  range  of  C25 – C31    with  odd  carbon  predominance  and  the  absence  of  PAH’s  from anthropogenic sources (e.g. combustion process) in  the sediments provide further evidence in support of terrigenous input of these hydrocarbons in the study area. It can thus be concluded that the sediments in the wetland is still in pristine condition.

 

Keywords: biogenic hydrocarbons, anthropogenic hydrocarbons, wetland, surface sediment, terrigenous input

 

References

1.     Wakeham,S.G. and Farrington, J.W. 1980 Contaminants and Sediments. Vol.1. Sc. Publication. Inc. pp3-32

2.     Venkatesan, M.I. and Kaplan, I.R. 1982. Geochim. Cosmochim. Acta 46. 2135.

3.     Prahl, F.G., Crecellius, E.,Carpenter, R. 1984. Polycyclic Aromatic Hydrocarbons in Washington Coastal sediment: and evaluation of atmospheric and riverine routes of introduction. Env. Sci. Tech. 18. 687-693

4.     Gagosian, R.B., Peltzer,E.T., 1986. The importance of atmospheric input of terrestrial organic material to deep seasediment. Org. Geochem. 10, 661

5.     Lipitou, E., Albaiges, J., 1994. Atmospheric Deposition of hydrophobic organic chemicals in the Rhone River input. Mar. Chem. 46, 153-164

6.     National Academy of Sciences (NAS), 1975. Petroleum in the marine environment. Washington DC. p 107

7.     Sharma, D.S.K. 1994a. Nesting densities of marine turtles and painted terrapins at Kuala Setiu Baharu, Trg. Report produced under project MYS 255/93. WWF Malaysia, PJ. 63pp

8.     UNEP. 1992. Reference Method for Marine pollution studies no. 20 ( IOC, IAEA ). Determination of Petroleum hydrocarbons in sediment. United Nations Environment Programme. p75

9.     Norhayati M. and M. Mohinder Singh. 1980. Manual of Laboratory Method of Chemical Soil Analysis. Rubber Research Institute of Malaysia. Kuala Lumpur, 1980. 13-15

10.  Bigot, M., Saliot, A., Cui, X. and Li, J. 1989. Organic Geochemistry of surface sediments from the Huang He estuary and adjacent Bohai Sea (China). Marine Geology. 75, 339-350

11.  Bouloubassi, I., Fillaux, J. and Saliot, A. 2001. Hydrocarbons of surface sediments from Changjiang  (Yangtze River) estuary, East China Sea. Marine Pollution Bulletin. 42, 1335-1346

12.  Wong, K.Y. 1997. Analysis of Hydrocarbon Compounds in Marine and Soil System. B. Sc. (Chem)  Final Year Thesis. Chemistry Department, University of Malaya, Kuala Lumpur.

13.  Hairunazifah, M.2000. Taburan Hidrokarbon di Pulau Cik Wan Dagang. Tesis Projek Tahun Akhir, Program B.Sc. (Kimia). Fakulti Sains dan Teknologi, Kolej Universiti Terengganu (KUT), Universiti Putra Malaysia.

14.  Norhayati, M.T., Li, H.L., M. Kamil. A.R. 2003. Extractable Organic Matter and Aliphatic Hydrocarbons Profile in Coastal sediments of the West Coast of Peninsular Malaysia. Proceedings of KUSTEM’s Annual Seminar on Sustainability Science and Management. p43-50

15.  Eglinton, G., Hamilton, R.J. 1967. Leaf epiticular waxes. Science 156, 1322-1335

16.  Tulloch, A.P.1976. Chemistry of waxes of higher plants. In: Kolattukudy, P.E. (Edu), Chemistry and Biochemistry of Natural Waxes. Elsevier, Amsterdam. 236pp

17.  Gough, M.A and Rowland, S.J. 1990. Characterization of Unresolved complex mixtures of hydrocarbons in petroleum. Nature 344, 648-650

18.  Farrington, J.W., Quinn, J.G.1973. Petroleum hydrocarbons in Narragansett Bay:1. Survey of hydrocarbons in sediments and clams (Mercenaria mercenaria) estuarine. Coastal Mar. Sci. 1, 71 –79

19.  Brassel,  S.C.,  Eglinton,  G.  1980.  Environmental  Chemistry  an  interdisciplinary  subject. Natural  and  pollutant organic compounds in contemporary aquatic environments. In: Albeiges, J. (Ed), Analytical Techniques in Environmental Chemistry. Pergamon, Oxford.

20.  Cook, R.H., 1983. Policyclic aromatic Hydrodarbon in the Aquatic environment: Formation sources Fate and effects fate and Effects on Aquatic biota, Crown, 9 – 31p

21.  Rogge, W.F., Hildeman,L.M. Mazurek, M.A., Cass, G.R. and Simoneit, B.R.T. 1993. Sources of Fine Organic Aerosols.2. NonCatalyst and catalyst- equipped automobiles and heavy-duty diesel trucks. Env. Sci. and Tech. 27, 2700-2711




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