 |
 |
 |
 |
 |
 |
Sains Malaysiana 44(7)(2015): 965–971 Beryllium
Levels in the Mangrove Snail, Nerita lineata and Surface
Sediments from Peninsular Malaysian Mangrove Area (Tahap Berilium dalam
Siput Bakau, Nerita lineata dan Sedimen Permukaan daripada
Kawasan Bakau Semenanjung Malaysia) CHEE KONG
YAP*
& WAN HEE CHENG Department of Biology,
Faculty of Science, Universiti Putra Malaysia, 43400 Serdang, Selangor Darul
Ehsan, Malaysia Received: 27 June
2014/Accepted: 4 March 2015 ABSTRACT The beryllium (Be) concentrations
were determined in the shells, opercula and soft tissues of the
Nerita
lineata and in the surface sediments collected from nine geographical
sites of Peninsular Malaysian mangrove area in April 2011. The ranges
of Be concentrations (μg/kg dry weight) were: <1.00- 4.00
for shells, <1.00-2.00 for opercula and 3.00-41.00 for soft tissues
of N. lineata. For sediments, Be ranges were found between
1200 and 3810 μg/kg dry weight. The distribution of Be was
found to be: sediment> soft tissues > shells ≥ opercula.
The insignificant (p>0.05)
relationships of Be between snails and sediments and low bioaccumulation
factor (ratio of soft tissues to sediment) (<1.00), could be
attributed to the fact that Be contamination being not serious in
the Peninsular Malaysian mangrove area. The snail N.
lineata as a good biomonitor of Be needs further investigations.
Lastly, Peninsular Malaysia mangrove was not contaminated by Be
based on the present findings. Keywords: Be; biomonitoring;
mangrove snails; sediment ABSTRAK Kepekatan berilium (Be) telah
ditentukan di dalam cangkerang, operkulum dan tisu lembut bagi Nerita
lineata dan di dalam sedimen permukaan disampel dari sembilan
kawasan geografi di kawasan paya bakau di Semenanjung Malaysia pada
April 2011. Julat kepekatan Be (μg/kg berat kering) adalah:
<1.00-4.00 bagi cangkerang, <1.00-2.00 bagi operkulum dan
3.00-41.0 bagi tisu lembut dalam N. lineata. Bagi sedimen,
julat Be adalah didapati antara 1200 dan 3810 μg/kg berat kering.
Taburan bagi Be didapati sebagai: sedimen> tisu lembut> cangkerang
≥ operkulum. Korelasi yang tidak bererti (p>0.05)
antara siput dan sedimen dan faktor biopenimbunan yang rendah (nisbah
bagi tisu lembut kepada sedimen) (<1.00), mungkin disebabkan
oleh pencemaran Be tidak serius di dalam kawasan paya bakau Semenanjung
Malaysia. Siput N. lineata sebagai penunjuk pemantauan bagi
Be memerlukan kajian lanjutan. Akhir sekali, paya bakau Semenanjung
Malaysia tidak dicemari Be berdasarkan hasil kajian ini. Kata kunci: Be; pemantauan; sedimen; siput bakau REFERENCES Anderson,
M.A., Bertsch, P.M. & Miller, W.P. 1990. Beryllium in selected
southeastern soils. J. Environ. Qual. 19: 347-348. Asami,
T. & Fukazawa, F. 1985. Beryllium contents of uncontaminated
soil and sediments in Japan. Soil Sci. Plant Nutr. 31: 43-54.
Asami,
T. & Kubota, M. 1995. Background levels of soil beryllium in
several countries. Environm. Geochem. Health 17: 32-38. ATSDR.
1993. Toxicological profile for beryllium. Update. Atlanta,
GA, US Department of Health and Human Services, Public Health Service,
Agency for Toxic Substances and Disease Registry (ATSDR/TP-92/08;
NTIS Accession No. PB93-182434). Borovec,
Z. 1993. Partitioning of silver, beryllium and molybdenum among
chemical fractions in the sediments from the Labe (Elbe) River in
Central Bohemia, Czech Rep. GeoJournal 29(4): 359-364. Buat-Menerd,
P. & Chesselt, R. 1979. Variable influence of the atmosphere
flux on the trace metal chemistry of oceanic suspended matter. Earth
Planet Sci. Lett. 42: 398-411. Byrne,
C.J. & DeLeon, L.R. 1986. Trace metal residues in biota and
sediments from Lake Pontchartrain, Louisiana. Bull. Environ.
Contam. Toxicol. 37(1): 151-158. Chen,
M., Ma, L.Q. & Harris, W.G. 1999. Baseline concentrations of
15 trace elements in Florida surface soils. J. Environ. Qual.
28(4): 1173-1181. Clarke,
L.B. & Sloss, L.L. 1992. Trace elements - emissions from coal
combustion and gasification, IEACR/49, IEA Coal Research, London.
p. 111. Dallinger,
R. 1993. Strategies of metal detoxification in terrestrial invertebrates.
In Ecotoxicology of Metals in Invertebrates, edited by Dallinger,
R. & Rainbow, P.S. Boca Raton: Lewis Publishers. pp. 245-289.
Drury,
J.S., Shriner, C.R., Lewis, E.B., Towill, L.E. & Hammons, A.S.
1978. Reviews of the environmental effects of pollutants: VI. Beryllium.
Prepared under IAG-D5-0403 by Oak Ridge National Laboratory, Union
Carbide Corp., Oak Ridge, TN (EPA 600/1-78-028; NTIS PB-290966).
Ergin,
M., Saydam, C., Basturk, O., Erdem, E. & Yoruk, R. 1991. Heavy
metal concentrations in surface sediments from the two coastal inlets
(Golden Horn Estuary and Izmit Bay) of the northeastern Sea of Marmara.
Chem. Geol. 91: 269-285. Gao,
S., Luo, T.C., Zhang, B.R., Zhang, H.F., Han, Y.W., Hu, Y.K. &
Zhao, Z.D. 1998. Chemical composition of the continental crust as
revealed by studies in east China. Geochim. Cosmochim. Acta 62:
1959-1975. Griffitts,
W.R., Allaway, W.H. & Groth, D.H. 1977. Beryllium. In Geochemistry
and the Environment. Vol. II. The Relation of Other Selected Trace
Elements to Health and Disease. Washington, DC, National Academy
of Sciences, US National Committee for Geochemistry. pp. 7-10. Hakanson,
L. 1980. An ecological risk index for aquatic pollution control.
A sedimentary approach. Water Res. 14: 975-1001. IPCS
(International Programme on Chemical Safety). 1990. Beryllium. Geneva,
World Health Organization, IPCS, Environmental Health Criteria 106.
Itoh,
K. 1986. Beryllium in sediments of Nagoya Harbor estuaries. Bull.
Environ. Contam. Toxicol. 36: 935-941. Kabata-Pendias,
A. & Mukherjee, A.B. 2007. Trace
Elements from Soil to Human. Berlin: Springer. Kenaga, E. 1980. Predicted
bioconcentration factors and soil sorption coefficients of pesticides
and other chemicals. Ecotox. Environ. Saf. 4: 26-38. Luy, N., Gobert, S., Sartoretto, S., Biondo, R., Bouquegneau,
J.M. & Richir, J. 2012. Chemical contamination along the Mediterranean
French coast using Posidonia oceanica (L.) Delile above-ground
tissues: A multiple trace element study. Ecol. Ind. 18(7):
269-277. Müller, G. 1969.
Index of geoaccumulation in sediments of the Rhine River. GeoJournal
2: 108-118. Nordberg, G.F.
1982. Subclinical and chronic effects of trace elements with special
reference to critical effects. In Proceedings of the Second International
Workshop Trace Element Analytical Chemistry in Medicine and Biology,
edited by Bra¨tter, P. & Schramel, P. Neuherberg, Federal Republic
of Germany. pp. 291-312. Reeves, A.L. 1986.
Beryllium. In Handbook on the Toxicology of Metals. 2nd ed.,
Volume II: Speci Metals, edited by Friberg, L., Nordberg, G.F.,
Vouk, V.B. New York: Elsevier Science Publishers. pp. 95-116. Rezaee, K., Abdi,
M.R., Saion, E.B., Naghavi, K. & Shafaei, M.A. 2011. Distribution
of trace elements in the marine sediments along the South China
Sea, Malaysia. J. Radioanal. Nucl. Chem. 287: 733-740. Richir, J. &
Gobert, S. 2014. The effect of size, weight, body compartment, sex
and reproductive status on the bioaccumulation of 19 trace elements
in rope-grown Mytilus galloprovincialis. Ecol. Ind. 36:
33-47. Rudnick, R.L. &
Gao, S. 2003. Composition of the continental crust. In Treatise
on Geochemistry, edited by Heinrich, D.H. & Karl, K.T. Oxford:
Pergamon Press. pp. 1-64. Rupasinghe, M.S.,
Banerjee, A., Pense, J. & Dissanayke, C.B. 1984. The geochemistry
of Beryllium and Fluorine in the gem fields of Sri Lanka. Mineral.
Deposita 19: 86-93. Schi., K.C. &
Weisberg, S.B. 1999. Iron as a reference element for determining
trace metal enrichment in Southern California coast shelf sediments.
Mar. Environ. Res. 48: 161-176. Shaw, D.M., Dostal,
J. & Keays, R.R. 1976. Additional estimates of continental surface
Precambrian shield composition in Canada. Geochim. Cosmochim.
Acta 40: 73-83. Shaw, D.M., Reilly,
G.A., Muysson, J.R., Pattenden, G.E. & Campbell, F.E. 1967.
An estimate of the chemical composition of the Canadian Precambrian
shield. Can. J. Earth Sci. 4: 829-853. Sultan, K. &
Shazili, N.A. 2010. Geochemical baselines of major, minor and trace
elements in the tropical sediments of the Terengganu River basin,
Malaysia. Int. J. Sed. Res. 25: 340-354. Sutherland, R.A.
2000. Bed sediment-associated trace metals in an urban stream, Oahu,
Hawaii. Env. Geol. 39(6): 611-627. Szefer, P. &
Szefer, K. 1990. Metals in molluscs and bottom sediments of the
southern Baltic. Helgoland
Meeresunters 44: 424-441. Taylor, S.R. &
McLennan, S.M. 1995. The geochemical evolution of the continental
crust. Rev. Geophys. 33: 241-265. Wagner, A. &
Boman, J. 2004. Biomonitoring of trace elements in Vietnamese freshwater
mussels. Spectrochim. Acta (Part B) 59: 1125-1132. Wedepohl, K.H.
1995. The composition of the continental crust. Geochim. Cosmochim.
Acta 59: 1217-1239. WHO (World Health
Organization). 2001. Beryllium and beryllium compounds. Concise
international chemical assessment document: 32. Published under
the joint sponsorship of the United Nations Environment Programme,
the International Labour Organization, and the WHO, and produced
within the framework of the Inter-Organization Programme for the
Sound Management of Chemicals. Stuttgart. Yap, C.K., Cheng,
W.H., Ismail, A., Ismail, A.R. & Tan, S.G. 2009a. Biomonitoring
of heavy metal (Cd, Cu, Pb, and Zn) concentrations in the west intertidal
area of Peninsular Malaysia by using Nerita lineata. Toxicol.
Environ. Chem. 91(1): 29-41. Yap, C.K., Noorhaidah,
A., Azlan, A., Nor Azwady, A.A., Ismail, A., Ismail, A.R., Siraj,
S.S. & Tan, S.G. 2009b. Telescopium telescopium as potential
biomonitors of Cu, Zn, and Pb for the tropical intertidal area.
Ecotoxicol. Environ. Saf. 72: 496-506. Yap, C.K. &
Pang, B.H. 2011. Assessment of Cu, Pb and Zn contamination in sediment
of north western Peninsular Malaysia by using sediment quality values
and different geochemical indices. Environ. Monitor. Assess.
183(1-4): 23-39. *Corresponding author; email: yapckong@hotmail.com
|
|||
|
