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Sains Malaysiana 50(9)(2021): 2511-2522
http://doi.org/10.17576/jsm-2021-5009-02
Sources of
Polycyclic Aromatic Hydrocarbons in South China Sea Short Core Sediments Off
Southern Part Terengganu, Malaysia and Multivariate Statistics Approaches
(Punca Hidrokarbon
Aromatik Polisiklik di Teras Sedimen Pendek Laut China Selatan di Bahagian
Selatan Terengganu, Malaysia dan Pendekatan Statistik Multivariat)
SWEE YUN PANG1,
SUHAIMI SURATMAN1*, YII SIANG HII2, BERND R.T. SIMONEIT3 & NORHAYATI MOHD TAHIR1,4
1Institute of Oceanography and Environment, Universiti Malaysia Terengganu, 21030 Kuala Nerus, Terengganu Darul Iman, Malaysia
2Pakar Scieno TW Sdn. Bhd., 25, Jalan Pengacara U1/48, Kawasan Perindustrian Temasya, 40150 Shah Alam, Selangor Darul Ehsan, Malaysia
3Department of Chemistry, College of Science, Oregon
State University, Corvallis, Oregon 97331, USA
4Faculty of Science and Marine Environment, Universiti Malaysia Terengganu, 21030 Kuala Nerus, Terengganu Darul Iman, Malaysia
Diserahkan: 9 November 2020/Diterima:
22 Januari 2021
Abstract
Sediment cores from the southern South China Sea off
the Terengganu coast were analyzed for polycyclic aromatic hydrocarbons (PAHs)
and perylene. The concentrations of total 17 PAH (TPAHs) and perylene varied
between 5.45-27.7 ng/g and 0.51-7.77 ng/g, respectively. Analyses of variance
showed significant differences between the stations, but not in sub-bottom
depths at the 0.05 level. The PAH cross plots showed a predominance of
pyrogenic over petrogenic PAHs. Principal component analysis (PCA) showed
clustered PAHs that are correlated with total organic carbon (TOC), indicating
the importance of surface runoff via fluvial transport for contributing these
PAHs to the coastal environment of the study area. Overall, the concentrations
of PAHs in the study area are considered to be in the low range, not exceeding
the 100 ng/g mark.
Keywords: Fluvial transport; PAHs; perylene;
pyrogenic; southern South China Sea
Abstrak
Teras sedimen yang diambil di selatan Laut China Selatan, luar pesisir Terengganu telah dikaji untukhidrokarbon aromatik
polisiklik (PAH) dan perilena. Kepekatan jumlah17 PAH
(TPAH) dan perilena yang diperoleh masing-masing adalah 5.45-27.7 ng/g dan 0.51-7.77 ng/g. Keputusan analisis varians menunjukkan terdapat perbezaan yang signifikan antara stesen, tetapi tiada perbezaan pada kedalaman bawah dasar pada tahap 0.05. Plot silang PAH menunjukkan dominasi punca pirogenik berbanding PAH punca petrogenik. Analisis komponen utama (PCA) menampakkan PAH berkelompok berkorelasi dengan kandungan karbon organik (TOC), menunjukkan pentingnya larian permukaan melalui pengangkutan fluvium untuk menyumbang PAH kepada persekitaran pantai di kawasan kajian. Secara keseluruhan, kepekatan PAH di kawasan kajian adalah berada dalam julat rendah, tidak melebihi 100 ng/g.
Kata kunci: PAH; pengangkutan fluvium; perilena; pirogenik; selatan Laut China Selatan
RUjukan
Assim, Z.A., Salleh, F. & Nee, L.J.T.C.
2009. Aliphatic and polyaroamtic hydrocarbon in
surface sediment from coastal areas of Rajang, Sarawak Malaysia. Proceedings of the International
Conference on Marine Ecosystem: Transboundary Approach in Sustainable and Integrated Marine Resource
Management. Pulau Langkawi (26-28 May 2009):
INCOMES. p. 59.
Bakhtiari, A.R., Zakaria, M.P., Yaziz, M.I., Hj Lajis, M.N., Bi, X. & Abd Rahim, M.C. 2009. Vertical
distribution and source identification of polycyclic aromatic hydrocarbons in
anoxic sediment cores of Chini Lake, Malaysia:
Perylene as indicator of land plant-derived hydrocarbons. Applied Geochemistry 24: 1777-1787.
Baumard, P., Budzinski,
H. & Garrigues, P. 1998. Polycyclic aromatic hydrocarbons in sediments and
mussels of the western Mediterranean Sea. Environmental
Toxicology and Chemistry 17: 765-776.
Bechtel, A., Widera, M., Sachsenhofer, R.F., Gratzer, R., Lücke, A. & Woszczyk, M. 2007. Biomarker and stable carbon isotope
systematics of fossil wood from the second Lusatian lignite seam of the Lubsotw deposit (Poland). Organic Geochemistry 38: 1850-1864.
Bertrand,
O., Montargès-Pelletier, E., Mansuy-Huault,
L., Losson, B., Faure, P., Michels,
R., Pernot, A. & Arnaud, F. 2013. A possible
terrigenous origin for perylene based on a sedimentary record of a pond
(Lorraine, France). Organic Geochemistry 58: 69-77.
Chiu, T.R., Mt Nanyan,
N.F. & Mohd Ali, M. 2015. Distribution of
polycyclic aromatic hydrocarbons (PAHs) in surface sediments of Kapas Island, Terengganu, Malaysia, Procedia Environmental Science 30: 162-167.
Elias, M.S., Wood, A.K., Hashim, Z., Wee,
B.S., Hamzah, M.S., Abd Rahman, S., Abd Salim, N.A. & Talib, A. 2007. Polycyclic aromatic
hydrocarbons (PAHs) contamination in the sediments of east coast Peninsular
Malaysia. The Malaysian Journal of
Analytical Sciences 11(1): 70-75.
Fahmy, O.G. & Fahmy, M.J. 1973. Mutagenic properties of
benzo(a)pyrene and its methylated derivatives in relation to the molecular
mechanisms of hydrocarbon carcinogenesis. Cancer
Research 33: 302-309.
Fan, C.W., Shiue, J., Wu, C.Y. & Wu,
C.Y. 2011. Perylene dominance in sediments from a subtropical high mountain
lake. Organic Geochemistry 42:
116-119.
Fine, P.M., Cass, G.R. & Simoneit, B.R.T. 2002. Chemical characterization of fine
particle emissions from fireplace combustion of woods grown in the southern
United States. Environmental Science and
Technology 36: 1442-1451.
Itoh, N., Sakagami, N., Torimura,
M. & Watanabe, M. 2012. Perylene in Lake Biwa sediments originating from Cenococcum geophilum in
its catchment area. Geochimica et Cosmochimica Acta 95: 241-251.
Jia, C. & Batterman, S. 2010.
A critical review of naphthalene sources and exposures relevant to indoor and
outdoor air. International Journal of Environmental Research and Public Health 7: 2903-2939.
Jiang, C., Alexander, R., Kagi, R.I. & Murray, A.P. 2000. Origin of perylene in
ancient sediments and its geological significance. Organic Geochemistry 31: 1545-1559.
Khalili, N.R., Scheff,
P.A. & Holsen, T.M. 1995. PAH source fingerprints
for coke ovens, diesel and gasoline engines, highway tunnels and wood
combustion emissions. Atmospheric
Environment 29: 533-542.
Krauss, M., Wilcke,
W., Martinus, C., Bandeira, A.G., Garcia, M.V.B.
& Amelung, W. 2005. Atmospheric versus biological
sources of polycylic aromatic hydrocarbons (PAHs) in
a tropical rain forest environment. Environmental
Pollution 135: 143-154.
Marynowski, L., Smolarek,
J., Bechtel, A., Philippe, M., Kurkiewicz, S. & Simoneit, B.R.T. 2013. Perylene as an indicator of conifer
fossil wood degradation by wood-degrading fungi. Organic Geochemistry 59: 143-151.
Mohd Tahir, N., Fadzil,
M.F., Ariffin, J., Maarop,
H. & Hj. Wood, A.K. 2011. Source and distribution
of hydrocarbons in mangrove sediments of Pulau Cik Wan Dagang, Kemaman. Journal of
Sustainability Science and Management 6: 98-106.
Mohd Tahir, N., LI, H.L. & Abdul Rashid,
M.K. 2004. Hydrocarbons distribution in sediment of coastal areas of Penggerang. Johore. Paper
on Proceedings of KUSTEM Research Seminar. Terengganu (May 31-June 2,
2004): KUSTEM. pp. 189-192.
Moris, N. & Singh, M.M. 1971. Manual of Laboratory Method of Chemical Soil
Analysis. Rubber Research Institute of Malaysia, Kuala Lumpur.
Page, D.S., Boehm, P.D., Douglas, G.S.,
Bence, A.E., Burns, W.A. & Mankiewicz, P.J. 1999. Pyrogenic polycyclic
aromatic hydrocarbons in sediments record past human activity: A case study in
Prince William Sound, Alaska. Marine
Pollution Bulletin 38: 247-260.
Peng, X., Wang, Z., Tang, C., Lu, H., Xu,
S., Chen, F., Mai, B., Chen, S., Li, K. & Yang, C. 2008. Temporal trends of
hydrocarbons in sediment cores form Pearl River Estuary and northern South
China Sea. Environmental Pollution 156: 442-448.
Sakari, M., Zakaria, M.P., Mohamed, C.A.R., Haji Lajis, N., Chandru, K., Bahry, P.S., Md. Sahfiee, M.
& Anita, S. 2010a. The history of petroleum pollution in Malaysia: Urgent
for integrated prevention approach. Environmental
Asia 3: 131-142.
Sakari, M., Zakaria, M.P., Mohamed, C.A.R., Haji Lajis, N., Chandru, K., Bahry, P.S., Mazlin, B.M. & Shahbazi, A. 2010b. Urban vs. marine based oil pollution in
the Strait of Johor, Malaysia: A century record. Soil and Sediment Contamination 19: 644-666.
Schauer, J.J., Kleeman,
M.J., Cass, G.R. & Simoneit, B.R.T. 2002.
Measurement of emissions from air pollution sources. 5. C1 through C32 organic compounds from gasoline-powered motor vehicles. Environmental Science and Technology 36: 1169-1180.
Sicre, M.A., Marty, J.C., Saliot,
A., Aparico, X., Grimalt,
J. & Albaiges, J. 1987. Aliphatic and aromatic
hydrocarbons in different sized aerosols over the Mediterranean Sea: Occurrence
and origin. Atmospheric Environment 21: 2247-2259.
Silliman, J.E., Meyers, P.A., Ostrom, P.H.,
Ostrom, N.E. & Eadie, B.J. 2000. Insights into the origin of perylene from
the isotopic analysis of sediments from Saanich Inlet, British Columbia. Organic Geochemistry 31: 1133-1142.
Simoneit, B.R.T. 2002. Biomass burning - A review
of organic tracers for smoke from incomplete combustion. Applied
Geochemistry 17: 129-162.
Tolosa, I., de Mora, S., Sheikholeslami,
M.R., Villeneuve, J.P., Bartocci, J. & Cattini, C. 2004. Aliphatic and aromatic hydrocarbons in
coastal Caspian Sea sediments. Marine
Pollution Bulletin 48: 44-60.
Wan
Mahmood, Z.U., Mohamed, C.A.R., Yii, M.W., Ahmad, Z.,
Ishak, K. & Ishak,
A.K. 2010. Vertical inventories and fluxes of 210Pb, 228Ra
and 226Ra at southern South China Sea and Malacca Strait. Journal of Radioanalytical Nuclear Chemistry 286: 107-113.
Wang, Z., Fingas,
M., Shu, Y.Y., Sigouin, L., Landriault,
M., Lambert, P., Turpin, R., Campagna, P. & Mullin, J. 1999. Quantitative
characterization of PAHs in burn residue and soot samples and differentiation
of pyrogenic PAHs from petrogenic PAHsthe 1994 mobile
burn study. Environmental Science and
Technology 33: 3100-3109.
Wilcke, W.,
Krauss, M. & Amelung, W. 2002. Carbon isotope signature of
polycyclic aromatic hydrocarbons (PAHs): Evidence for different source in
tropical and temperate Environments? Environmental
Science and Technology 36: 3530-3535.
Wu, Y.L., Wang, X.H., Li, Y.Y., Hong, H.S.,
Lin, H.Y. & Yin, M.D. 2009. Over one hundred year sedimentary record of polycyclic aromatic hydrocarbons in the Andaman Sea,
Malaysia. Environmental Science 30:
2512-2519.
Yang, G. 2000. Polycyclic aromatic
hydrocarbons in sediments of the South China Sea. Environmental Pollution 108: 163-171.
Yunker, M.B., Macdonald, R.W., Goyette, D., Paton,
D.W., Fowler, B.R., Sullivan, D. & Boyd, J.
1999. Natural and anthropogenic inputs of hydrocarbons to the Strait of
Georgia. The Science of the Total
Environment 225: 181-209.
Yunker, M.B., Macdonald, R.W., Ross, P.S., Johannessen, S.C.
& Dangerfield, N. 2015. Alkane and PAH provenance and potential
bioavailability in coastal marine sediments subject to a gradient of
anthropogenic sources in British Columbia, Canada. Organic Geochemistry 89(90): 80-116.
Yunker, M.B., Mcdonald, R.W., Vingarzan, R.,
Mitchell, R.H., Goyette, D. & Sylvestre, S. 2002.
PAHs in Fraser River basin: A critical appraisal of PAH ratios as indicators of
PAHs source and composition. Organic
Geochemistry 33: 489-515.
Zaghden, H., Kallel, M., Elleuch, B., Oudot, J.
& Saliot, A. 2007. Sources and distribution of
aliphatic and polyaromatic hydrocarbons in sediments of Sfax, Tunisia,
Mediterranean Sea. Marine Chemistry 105: 70-89.
Zakaria, M.P., Manan, N., Lee, C.Y. &
Mohamed, C.A.R. 2009. Distribution and sources of Polycyclic Aromatic
Hydrocarbons (PAHs) in core sediment samples collected in South China Sea. Book Abstract of Pameran Rekacipta Penyelidikan dan Inovasi (PRPI) (28-30 Julai 2009): Perhutanan dan Alam Sekitar. p. 75.
Zakaria, M.P., Takada, H., Tsutsumi, S., Ohno, K., Yamada, J., Kouno,
E. & Kumata, H. 2002. Distribution of polycyclic
aromatic hydrocarbons (PAHs) in rivers and estuaries in Malaysia: A widespread
input of petrogenic PAHs. Environmental
Science Technology 36: 1907-1918.
Zhang, D., Liu, J.,
Yin, P., Lin, X., Liu, N. & Meng, X. 2016. Polycyclic aromatic hydrocarbons
in surface sediments from the Coast of Weihai, China: Spatial distribution, sources and
ecotoxicological risks. Marine Pollution Bulletin 109(1): 643-649.
*Pengarang untuk surat-menyurat; email:
miman@umt.edu.my
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