 |
 |
 |
 |
 |
 |
Sains Malaysiana 39(4)(2010): 581–586
Kesan Infusi Terhadap Kepekatan Fluorida
dalam Pelbagai Jenis Teh Cina
(Effect
of Infusion on Fluoride Concentration in Various Chinese Tea)
Wong Win Ni & A.R. Suriah*
Program Sains Makanan
Pusat Pengajian Sains Kimia &
Teknologi Makanan
Fakulti Sains dan Teknologi,
Universiti Kebangsaan Malaysia
43600 UKM Bangi, Selangor D.E., Malaysia
Diserahkan: 13 Ogos 2009 / Diterima:
1 Disember 2009
ABSTRAK
Kepekatan
fluorida dalam infusi teh komersial bagi sampel teh hitam, teh oolong, teh
hijau, teh putih dan teh bata ditentukan dengan menggunakan kaedah elektrod
selektif ion fluorida. Dua jenis infusi dilakukan, iaitu infusi berterusan dan
infusi berulangan. Dalam infusi berterusan, teh hitam menghasilkan kepekatan fluorida
yang paling tinggi, iaitu antara 0.929±0.053 mg/L hingga 3.746±0.028 mg/L. Teh
bata pula menghasilkan kepekatan fluorida antara 1.099±0.046 mg/L hingga
2.398±0.006 mg/L. Kepekatan fluorida terlarut bagi teh oolong, teh hijau dan
teh putih masing-masing adalah antara 0.584±0.080 mg/L hingga 1.255±0.044 mg/L,
0.624±0.088 mg/L hingga 1.838±0.062 mg/L dan 0.571±0.027 mg/L hingga
1.845±0.017 mg/L. Kandungan kumulatif fluorida dalam infusi berulangan didapati
lebih tinggi daripada yang disediakan melalui infusi berterusan bagi semua
jenis teh. Hasil kajian menunjukkan kandungan fluorida berbeza-beza dengan
jenis teh dan kaedah infusi yang berlainan. Oleh sebab pengambilan fluorida
yang berlebihan boleh menyebabkan fluorosis gigi dan fluorosis tulang, maka kerajaan
tempatan atau organisasi antarabangsa harus menetapkan suatu piawai keselamatan
untuk kandungan fluorida dalam pelbagai jenis teh demi menjamin keselamatan
pengguna.
Kata kunci:
Fluorida; infusi berterusan; infusi berulang; teh cina
ABSTRACT
The
fluoride content in infusions of commercially available black tea, oolong tea,
green tea, white tea and bata tea was determined via fluoride ion selective
electrode method. Two methods of infusion were carried out: continuous infusion
and repeated infusion. In continuous infusion, black tea yielded the highest
concentration of fluoride, which ranged between 0.929±0.053 mg/L and
3.746±0.028 mg/L. Fluoride detected in brick tea ranged from 1.099±0.046 mg/L
to 2.398±0.006 mg/L. The dissolvable fluoride for oolong tea, green tea, and
white tea were ranged from 0.584±0.080 mg/L to 1.255±0.044 mg/L, 0.624±0.088
mg/L to 1.838±0.062 mg/L and 0.571±0.027 mg/L to 1.845±0.017 mg/L,
respectively. The cumulative fluoride contents in repeated infusion were higher
than those prepared by continuous infusion for all types of tea. Results of the
study indicate that there was a wide range of fluoride content with different
types of tea and methods of infusion. Because excessive intake of fluoride can
cause dental and skeletal fluorosis, it is necessary for the government or
international organization to establish a standard of fluoride content in tea
commodities in order to protect the consumers against health hazards.
Keywords:
Chinese tea; continuous infusion; fluoride; repeated infusion
RUJUKAN
Cao, J., Zhao, Y. & Liu, J. 1997. Bata tea consumption as
the cause of dental fluorosis among children from Mongol, Kazak and Yugu
populations in China. Food and Chemical Toxicology 35(8): 827-829.
Cao, J., Zhao, Y., Li, Y., Deng, H.J., Yi, J. & Liu, J.W.
2006. Fluorida levels in various black tea commodities: Measurement and safety
evaluation. Food and Chemical Toxicology 44(7): 1131-1137.
Cao, J., Zhao, Y., Liu, J., Xirao, R. & Danzeng, S. 2001.
Varied ecological environment and fluorosis in Tibetan children in the nature
reserve of Mount Qomolangma. Ecotoxicology and Environmental Safety 48(1):
62-65.
Chan, E.W.C., Lim, Y.Y. & Chew, Y.L. 2007. Antioxidant
activity of Camellia sinensis leaves and tea from a lowland plantation in
Malaysia. Food Chemistry 102(4): 1214-1222.
Fernandez, P.L., Pablos, F., Martin, M.J. & Gonzalez, A.G.
2002. Multi-element analysis of tea beverages by inductively coupled plasma
atomic emission spectrometry. Food Chemistry 76(4): 483-489.
Ferrara, L., Montesano, D. & Senatore, A. 2001. The
distribution of minerals and flavonoids in the tea plant (Camellia sinensis). Il Farmaco 56(5-7): 397-401.
Fung, K.F., Zhang, Z.Q., Wong, J.W.C. & Wong, M.H. 1999.
Fluorida contents in tea and soil from tea plantations and the release of
fluoride into tea liquor during infusion. Environmental Pollution 104(2):
197-205.
King, M.N. & Tsang, M.C.K. 1987. The fluorida content of
chinese and black teas available in Hong Kong. Fluorida 20(1): 18-23.
Lee, S., Kim, M. & Hee, Y. 1995. Effect of Korean green tea,
oolong tea and black beverage on the removal of cadmium and antioxidative
detoxification in cadmium administered rates. Third International Symposium
on Green Tea. Seoul, 1 September.
Lu, Y., Guo, W.F. & Yang, X.Q. 2004. Fluorida content in tea
and its relationship with tea quality. Journal of Agricultural and Food
Chemistry 52(14): 4472-4476.
Malde, M.K., Greiner-Simonsen , R., Julshamn, K. & Bjorvatn,
K. 2006. Tea leaves may release or absorb fluorida, depending on the fluorida
content of water. Science of the Total Environment 366: 915-917.
Malinowska, E., Inkielewicz, I., Czarnowski, W. & Szefer, P.
2008. Assessment of fluorida concentration and daily intake by human from tea
and herbal infusions. Food and Chemical Toxicology 46(3): 1055-1061.
Ruan, J., Ma, L., Shi, Y. & Han, W. 2004. The Impact of pH
and calcium on the uptake of fluorida by tea plants (Camellia sinensis L.). Annals of Botany 93: 97-105.
Ruan, J. & Wong, M.H. 2001. Accumulation of fluoride and
aluminium related to different varieties of tea plant. Environmental
Geochemistry and Health 23: 53-63.
Sha, J.Q. & Zheng, D.X. 1993. Relation between the amount of
fluoride infusid from tea leaves and fluoride intake by human. Chinese
Journal of Tea Leaves of Fujian Province 4: 15-19.
Shu, W.S., Zhang, Z.Q., Lan, C.Y. & Wong, M. H. 2003.
Fluorida and aluminium concentrations of tea plants and tea products from
Sichuan Province, PR China. Chemosphere 52(9): 1475-1482.
Wong, M.H., Fung, K.F. & Carr, H.P. 2003. Aluminium and
fluorida contents of tea, with emphasis on bata tea and their health
implications. Toxicology Letters 137(1-2): 111-120.
Yemane, M., Chandravanshi, B.S. & Wondimu, T. 2008. Levels
of essential and non-essential metals in leaves of the tea plant (Camellia
sinensis L.) and soil of Wushwush farms, Ethiopia. Food Chemistry 107:
1236-1243.
*Pengarang untuk surat-menyurat; email: sar@ukm.my
|
|||
|
