 |
 |
 |
 |
 |
 |
Sains Malaysiana 46(9)(2017): 1401–1405
http://dx.doi.org/10.17576/jsm-2017-4609-07
Triclopyr 3, 5, 6-Trichloro-2-Pyridinyl Clean-Up Procedure from Soil, Sediment and Water Samples Using SPE-HPLC-VWD (Tatacara
Pembersihan Triklopir 3, 5, 6-Trikloro-2-Piridinil daripada Sampel
Tanah, Sedimen
dan Air Menggunakan SPE-HPLC-VWD)
TAYEB, M.A.1*, ISMAIL, B.S.1, MARDIANA-JANSAR, K1., GOH CHOO TA2 & AFROZA, Y.M.2
1School of Environmental and Natural Resource Sciences, Faculty
of Science and Technology
Universiti Kebangsaan Malaysia, 43600 UKM
Bangi, Selangor Darul Ehsan, Malaysia
2Institute for Environment and Development (LESTARI), Universiti
Kebangsaan Malaysia
43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
Received: 31 August 2016/Accepted: 18
April 2017
ABSTRACT
Triclopyr is a post emergence
herbicide used to control woody plants. After application, the excess amount
will enter the soil and water bodies and it is present in ppb level thus making
extraction very difficult. The extraction of triclopyr 3, 5, 6-trichloro-2-pyridinyl
residue from soil, sediment and water samples under different solid phase
extraction (SPE) sorbent efficiency was studied for better recovery.
Four different SPE sorbents i.e.: Oasis HLB, Water Sep-Pak, Cromabond (cation/anion PS-H+ /OH-),
Isolute ENV+ and a series of solvent i.e. potassium dihydrogen
phosphate (KH2PO4 0.1M),
sodium hydroxide (NaOH 0.2M), potassium hydroxide (KOH 0.5
& 0.6M), ammonium acetate, methanol and water were used as extraction
solution. Sample clean-up performance was evaluated using high performance
liquid chromatography (HPLC, Agilent 1220 infinity LC)
with variable wavelength detector (VWD) 290 nm. Cromabond®H+/OHcolumn
with 0.6 M KOH was the most suitable for the clean-up in view of the
overall feasibility of the analysis. The highest recovery was 89.32%.
Keywords: Clean-up; sorbents;
triclopyr; water samples
ABSTRAK
Triklopir adalah herbisid selepas
percambahan (herbisid sistemik) yang digunakan untuk pengawalan tumbuhan
berkayu. Selepas penyemburan, lebihan herbisid akan masuk ke dalam tanah dan
badan air dan hadir pada aras ppb yang menjadikannya sukar untuk diekstrak.
Pengekstrakan triklopir 3,5,6-trikloro-2-piridinil daripada sampel tanah,
sedimen dan air dengan menggunakan kecekapan penjerapan pengekstrakan fasa
pepejal (SPE) berbeza telah dikaji untuk perolehan yang lebih
baik. Empat penjerap SPE berbeza iaitu Oasis HLB,
Water Sep-Pak, Cromaibond (kation/anion PS-H+ /OH-),
Isolute ENV+ dan beberapa siri pelarut seperti kalium dihidrogen fosfat (KH2PO4 0.1M),
natrium hidroksida (NaOH 0.2M), kalium hidroksida (KOH 0.5
& 0.6M), ammonium asetat, metanol dan air telah digunakan sebagai larutan
pengekstrakan. Prestasi pembersihan dinilai menggunakan kromatografi cecair
berprestasi tinggi (HPLC), (Agilent 1220 infiniti LC)
dengan pengesan panjang gelombang pemboleh ubah (VWD)
290 nm. Turus Cromabond®H+/OH dengan
0.6 M KOH adalah yang paling sesuai bagi kaedah pembersihan
dengan melihat keseluruhan analisis. Perolehan tertinggi bagi triklopir adalah
89.32%.
Kata
kunci: Pembersihan; penjerap; sampel air; triklopir
REFERENCES
Ferenc, A.Z. & Biziuk, M. 2006. Solid
phase extraction technique-trends, opportunities and applications. Polish
Journal of Environmental Studies 15(5): 677-690.
Frank, J.S., Steven, J.L. & Vega, V.
2002. Comparison of solid-phase extraction sorbents for clean-up in pesticide
residue analysis for fresh fruit and vegetables. Journal of Separation
Science 25(14): 883-890.
Ismail, B.S., Lee Yin Choo, Salmijah, S.,
Halimah, M. & Tayeb, M.A. 2015a. Adsorption, desorption and mobility of
Cyfluthrin in three Malaysian tropical soils of different textures. Journal
of Environmental Biology 36(5): 1105-1111.
Ismail, B.S., Mazlinda, M. & Tayeb,
M.A. 2015b. The persistence of Deltamethrin in Malaysian agricultural soils. Sains
Malaysiana 44(1): 83-89.
Ismail, B.S., Ooi, K.E. & Tayeb, M.A.
2015c. Laboratory assessment of 14c-phenyl metsulfuron-methyl degradation in an
oil palm plantation soil. Journal of Oil Palm Research 27(4): 403-416.
Ismail, B.S., Prayitno, S. & Tayeb,
M.A. 2015d. Contamination of rice field water with sulfonylurea and phenoxy
herbicides in the Muda Irrigation Scheme, Kedah, Malaysia. Environmental
Monitoring and Assessment 187(7): 406-419.
Ismail, B.S., Mazlinda, M. & Tayeb,
M.A. 2013. Adsorption, desorption and mobility of cypermethrin and deltamethrin
in Malaysian soils. International Journal of Plant, Animal and Environmental
Sciences 3(4): 23-29.
Kirkland, J.J., Henderson, J.W.,
Martosella, J.D., Bidlingmeyer, B.A., Vasta-Russell, J. & Adams, J.B. 1999.
A highly stable alkyl-amide silica-based column packing for reversed-phase HPLC
of polar and ionizable compounds. LC-GC 17(7): 634-639.
Kuivinen, J. & Bengtsson, S. 2002.
Solid-phase extraction and clean-up of organophosphorus pesticide residues in
bovine muscle with gas chromatographic detection. Journal of Chromatographic
Science 40: 391-396.
Neue, U.D., Phoebe, C.H., Tran, K.,
Cheng, Y.F. & Lu, Z. 2001. Dependence of reversed-phase retention of
ionizable analytes on pH, concentration of organic solvent and silanol
activity. Journal of Chromatography A 925(1-2): 49-67.
Tayeb, M.A., Ismail, B.S.,
Mardiana-Jansar, K. & Goh Choo Ta. 2016. Troubleshooting and maintenance of
high-performance liquid chromatography during herbicide analysis: An overview. Sains
Malaysiana 45(2): 237-246.
Tayeb, M.A., Ismail, B.S. &
Khairiatul Mardiana, J. 2015a. Comparison of four different solid phase
extraction cartridges for sample clean-up in the analysis of glufosinate
ammonium from aqueous samples. International Journal of Chem. Tech. Research 7(6): 2612-2619.
Tayeb, M.A., Ismail, B.S.,
Mardiana-Jansar, K. & Goh Choo Ta. 2015b. Glufosinate ammonium clean-up
procedure from water samples using SPE. AIP Conference Proceedings 1678:
060024(1-7).
Xiang, Y., Liu, Y. & Lee, M.L. 2006.
Ultrahigh pressure liquid chromatography using elevated temperature. Journal
of Chromatography A 1104(1-2): 198-202.
*Corresponding author; email: atayeb91@yahoo.com |
|||
|
