Analytical methods including solvent extraction followed by gas chromatography/ion-trap (GC/IT) with scan and MS/MS mode, a GC/mass selective detector (GC/ MSD), and liquid chromatography/triple quadrupole mass spectrometers (LC/MS/MS) were optimized to identify and quantify terbutryn. The spike recovery was 96.5% using GC/IT with scan mode and 103.5% with MS/MS mode, 90.3% by GC/MSD, and 92.5% by LC/MS/MS. The limit of detection (LOD) was 0.0015 mg/kg by GC/IT with scan, 0.026 mg/kg with MS/MS mode, 0.015 mg/kg with GC/ MSD, and 0.026 mg/kg by LC/MS/MS. Of the four methods, GC/IT with scan mode was determined to be the most sensitive (with LOD: 0.0015 mg/kg and limit of quantitation (LOQ): 0.0047 mg/kg), rapid (retention time: 9.6 min) and the most precise method (relative standard deviation: 17%) for the quantification of terbutryn. GC/IT with scan mode proved to be the more sensitive analytical method for terbutryn than other methods in this study, showing better accuracy and rapid analysis.

1 Lewis RJ, "Sax's dangerous properties of industrial materials, 10th ed. Vol. 3" Van Nostrand Reinhold 2000

2 Patsias J, "Rapid method for the analysis of a variety of chemical classes of pesticides in surface and ground waters by off-line solid-phase extraction and gas chromatography-ion trap mass spectrometry" 740 : 83-98, 1996

3 Djozan D, "Preparation and binding study of solid-phase microextraction fiber on the basis of ametryn-imprinted polymer: application to the selective extraction of persistent triazine herbicides in tap water, rice, maize and onion" 1216 : 2211-2219, 2009

4 Lapworth DJ, "Pesticides in groundwater: some observations on temporal and spatial trends" 20 : 55-64, 2006

5 Yang W, "Multiresidue method for determination of 88 pesticides in berry fruits using solid-phase extraction and gas chromatography-mass spectrometry: Determination of 88 pesticides in berries using SPE and GC-MS" 127 : 855-865, 2011

6 Lehotay SJ, "Multiclass, multiresidue analysis of pesticides, strategies for Encyclopedia of Analytical Chemistry" Wiley 2000

7 Wang S, "Multi-residue determination of pesticides in water using multi-walled carbon nanotubes solidphase extraction and gas chromatography-mass spectrometry" 1165 : 166-171, 2007

8 Maloschik E, "Monitoring water-polluting pesticides in Hungary" 85 : 88-97, 2007

9 Quednow K, "Monitoring terbutryn pollution in small rivers of Hesse, Germany" 9 : 1337-1343, 2007

10 Larsen L, "Mecoprop, isoproturon, and atrazine in and above a sandy aquifer: vertical distribution of mineralization potential" 34 : 2426-2430, 2000

11 Voyksner RD, "Investigation of collisional-activation decomposition process and spectra in the transport regions of an electrospray single-quadrupole mass spectrometer" 5 : 263-268, 1991

12 Adams NH, "In vitro studies of the metabolism of atrazine, simazine, and terbutryn in several vertebrate species" 38 : 1411-1417, 1990

13 Villarini M, "In vitro genotoxicity of terbutryn evaluated by the alkaline singlecell microgel-electrophoresis" comet" assay" 16 : 285-292, 2000

14 Pacakova V, "High-performance separations in the determination of triazine herbicides and their residues" 754 : 17-31, 1996

15 Hernandez F, "Gas and liquid chromatography and enzyme linked immuno sorbent assay in pesticide monitoring of surface water from the western mediterranean (Comunidad Valenciana, Spain)" 42 : 151-158, 1996

16 U.S. Environmental Protection Agency, "Fact Sheet Number 104: Terbutryn" U.S. EPA 1986

17 Djozan D, "Evaluation of a new method for chemical coating of aluminum wire with molecularly imprinted polymer layer. Application for the fabrication of triazines selective solid-phase microextraction fiber" 674 : 40-48, 2010

18 Zambonin CG, "Determination of triazines in soil leachates by solid-phase microextraction coupled to gas chromatography-mass spectrometry" 874 : 247-255, 2000

19 Bagheri H, "Determination of triazine herbicides in surface and drinking waters by off-line combination of liquid chromatography and gas chromatography-mass spectrometry" 34 : 5-13, 1992

20 Frias S, "Determination of triazine compounds in ground water samples by micellar electrokinetic capillary chromatography" 503 : 271-278, 2004

21 Muir DC, "Determination of terbutryne and its degradation products in water, sediments, aquatic plants and fish" 28 : 714-719, 1980

22 Gao S, "Determination of phenylurea and triazine herbicides in milk by microwave assisted ionic liquid microextraction high-performance liquid chromatography" 82 : 1371-1377, 2010

23 Carabias-Martinez, "Determination of herbicides and metabolites by solid-phase extraction and liquid chromatography: Evaluation of pollution due to herbicides in surface and groundwaters" 950 : 157-166, 2002

24 Velisek J, "Biochemical, physiological and morfological responses in common carp (Cyprinus carpio L.) after long-term exposure to terbutryn in real environmental concentration" 100 : 305-313, 2011

25 NHMRC N, "Australian drinking water guidelines paper 6 national water quality management strategy" 2011

26 Nilson EL, "Antialgal substances for iodine-disinfected swimming pools" 34 : 815-822, 1977

27 Postigo C, "Analysis and occurrence of selected medium to highly polar pesticides in groundwater of Catalonia (NE Spain): An approach based on on-line solid phase extraction-liquid chromatography-electrospray-tandem mass spectrometry detection" 383 : 83-92, 2010