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Vojislava Bursić, Gorica Vuković, Marina Đukić, Aleksandra Petrović, Magdalena Cara, Dušan Marinković and Rada Đurović-Pejčev

REFERENCES BURSIĆ, V., VUKOVIĆ, N., VUKOVIĆ, G., GVOZDENAC, S., ĐUROVIĆ-PEJČEV, R., LJUBOJEVIĆ M., CARA M.: Determination of pesticide in sour cherries using QuEChERS method by LC-MS/MS, 12th European Pesticide Residue Workshop “Pesticides in Food and Drink”, 22-25th May, Munich, Germany, Programme and Book of Abstracts, 146, 2018. BURSIĆ V., LAZIĆ, S., PUCAREVIĆ, M., BAGI, F., VUKOVIĆ, S.: Determination of captan, chlorpyriphos and cypermethrin residues in cherries, Savremena poljoprivreda, 60, 3-4, 359-366, 2011. PETROVIĆ M., SEKULIĆ J

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Mária Valičková, Ján Derco and Katarína Šimovičová

Science and Health - Part B: Pesticides, Food Contaminants, and Agricultural Wastes 31(3): 365-381. Gilliom RJ, Barbash JE, Kolpin DW, Larson SJ (1999) Environmental science technology 33 (7): 164A-169A. Kolpin DW, Barbash JE, Gilliom RJ (1998) Environmental science technology 32 (5): 558-566.

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Lenche Velkoska-Markovska, Biljana Petanovska-Ilievska and Aleksandar Markovski

REFERENCES AKAZOME Y: Characteristics and physiological functions of polyphenols from apples. Biofactors, 22(1-4) 311-314, 2004. ALBERO B, SANCHEZ-BRUNETE C, TADEO JL: Determination of Organophosphorus Pesticides in Fruit Juices by Matrix Solid-Phase Dispersion and Gas Chromatography. J. Agric. Food Chem., 51(24) 6915-6921, 2003. ATTALLAH ER, BARAKAT DA, MAATOOK GR, BADAWY HA: Validation of a quick and easy (QuEChERS) method for the determination of pesticides residue in dried herbs. J. Food. Agric. Environ., 10(1) 755-762, 2012. BARTH SW

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Sait Engindeniz and Gorkem Ozturk Cosar

References Adeniyi O.R. 2011. Economic aspects of intercropping systems of vegetables (okra, tomato and cowpea). Afr. J. Agric. Res. 5 (11): 648-655. Akgüngör S., Miran B., Abay C. 1999. Consumer willingness to pay for reduced pesticide residues in tomatoes: the Turkish case. Am. J. Agric. Econ. 81 (5): 1312-1317. Alimi T., Ayanwale A.B. 2004. Economic impacts of chemical pesticides use on fadama crop farming in Sudano-Sahelian zone. J. Social Sci. 9 (3): 149-155. Anonymous. 2002. Crop

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Mădălina Galaţchi, Andra Oros, Valentina Coatu, Mioara Costache, Dragomir Coprean and Liviu-Daniel Galaţchi

. Terzi, O. Pilger, N. Sarac, Determination of heavy metal levels in fish sample collected from the Middle Black Sea, Kafkas Üniv. Veteriner Fak. Dergisi 16 (2010) 119-125. [19]. Order No. 147/2004 for approving the sanitary veterinary and food safety norms on pesticide residues in animal and non-animal products and residues of veterinary drugs in animal products, Official Journal, 143 of 17 February, 2005 (in Romanian). [20]. V. Coatu, A. Oros, D. Tiganus, L. Lazar, Assessment of chemical contamination in biota from Romanian marine

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T.C. Tso, J.F. Chaplin, K.E. LeLacheur and T.J. Sheets

Abstract

A special study was conducted with the aim of evaluating the effects of pesticide treatment on tobacco in comparison with tobacco not treated with any pesticide. For the purpose of growing these tobaccos, experimental plots were selected on Prince Edward Island, Canada, where contamination of air, soil and water was at a minimum. The tobacco leaf was analyzed for 35 components and 28 pesticide residues. These samples are to be used for smoke analysis and bioassay. The results will be reported in a later publication.

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Seyyedeh Mahbubeh Mousavi, Sohrab Imani, Davoud Dorranian, Kambiz Larijani and Mahmoud Shojaee

References Abu-Qare A.W., Abou-Donia M.B. 2001. Determination of diazinon, chlorpyrifos, and their metabolites in rat plasma and urine by high-performance liquid chromatography. Journal of Chromatographic Science 39 (5): 200-204. Ambrus A. 2009. Estimation of sampling uncertainty for determination of pesticide residues in plant commodities. Journal of Environmental Science and Health, Part B 44: 627-639. Bai Y.H., Zhou L., Wang J. 2006. Organophosphorus pesticide residues in market foods in Shaanxi area, China

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Krystyna Pohorecka, Teresa Szczęsna, Monika Witek, Artur Miszczak and Piotr Sikorski

.J., Stajnbaher, D., & Schenck, F.J. (2003). Fast and easy multiresidue method employing acetonitrile extraction/partitioning and “dispersive solid-phase extraction” for the determination of pesticide residues in produce. Journal of AOAC International, 86, 412-31. Bargańska, Ż., Ślebioda, M., & Namieśnik J. (2014). Determination of pesticide residues in honey bees using modified QUEChERS sample work-up and liquid chromatography-tandem mass spectrometry. Molecules, 19, 2911-2924. doi: 10.3390/molecules19032911 Bargańska, Z., Ślebioda, M

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Pāvels Sudmalis, Mārīte Ārija Baķe and Juris Rotbergs

Reducing Risks to People from the Use of Pesticides. ACS Symposium Series, Vol. 951, Chapter 4. Oxford University Press, Oxford, pp. 49–69. Hopf, N. B., Ruder, A. M., Succop, P. (2009). Background levels of polychlorinated biphenyls in the U.S. population. Sci. Total Environ ., 407 , 6109–6119. Jackson, L. W., Lynch, C. D., Kostyniak, P. J., McGuinness, B. M., Louis, G. M. (2010). Prenatal and postnatal exposure to polychlorinated biphenyls and child size at 24 months of age. Reprod. Toxicol ., 25–31. Glynn, A., Aune, M., Darnerud, P. O., Bjerselius

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M.J.P. Shaw

References 1. Cole, J. S.: Control of tobacco powdery mildew caused by Erysiphe cichoracearnm DC by foliar sprays; Rhod. J. Agric. Res. 1 (:1963) 65--70. 2. Edwards, C. A.: Insecticide residues in soils; Residue Reviews :13 (:1966) 83-:132. 3. Shaw, M. J. P.: Rhodesian moves anticipated tobacco pesticide residue problem; Tobacco N. Y. :170 (:1970) :15- 4. Tillet, E. R.: The effect of fumigation and sources of nitrogen on the yield, quality and composition of flue-cured tobacco in Rhodesia; Proc