References
- Abou-Arab AAK, Abou-Donia MA. (2001). Pesticide residues in some Egyptian spices and medicinal plants as affected by processing. Food Chem 72:439–45
- Ahmed AMA, Randhawa M, Yusuf J, Khalid N. (2011). Effect of processing on pesticide residues in food crops. A review. J Agric Res 49:379–90
- Amirahmadi M, Shoeibi S, Abdollahi M, et al. (2013). Monitoring of some pesticides residue in consumed tea in Tehran market. IJEHSE 10:1
- Amirahmadi M, Yazdanpanah H, Shoeibi S, et al. (2013). Simultaneous determination of 17 pesticide residues in rice by GC/MS using a direct sample introduction procedure and spiked calibration curves. Iran J Pharm Res 12:295
- Angioni A, Schirra M, Garau VL, et al. (2004). Residues of azoxystrobin, fenhexamid and pyrimethanil in strawberry following field treatments and the effect of domestic washing. Food Addit Contam 21:1065–70
- Bonnechère A, Hanot V, Jolie R, et al. (2012). Effect of household and industrial processing on levels of five pesticide residues and two degradation products in spinach. Food Control 25:397–406
- Castro MF, Oliveria JJV, Rodrigues J, Oliveria JJ. (2002). A study on the persistence of trifluralin, chlorpyrifos, decamethrin, cypermethrin and dichlorvos in rice and beans after cooking in a commercial microwave oven. Proceedings of the 8th International Working Conference on Stored Product Protection; York, UK
- Cogburn RR, Simonaitis RA, Webb BD. (1990). Fate of malathion and chlorpyrifos methyl in rough rice and milling fractions before and after parboiling and cooking. J Econ Entomol 83:1636–9
- Elkins ER. (1989). Effect of commercial processing on pesticide residues in selected fruits and vegetables. AOACS 72:533–5
- Eslami M, Mashak Z, Heshmati A, et al. (2015). Determination of aflatoxin B1 levels in Iranian rice by ELISA method. Toxin Rev 34:125–8
- Fukuhara K, Katsumura R, Takasaka N, et al. (1994). Permethrin residues in foods and tableware after fumigation. J Food Hyg Soc Jpn 35:504–9
- Han Y, Liu S, Yang J, et al. (2016). Residue behavior and processing factors of eight pesticides during the production of sorghum distilled spirits. Food Control 69:250–*e5
- Holand PT, Hamilton D, Ohlin NB, Skidmore MW. (1994). Effects of storage and processing on pesticide residue in plant production. Pure Appl Chem 66:335–56
- Ikeura H, Kobayashi F, Tamaki M. (2011). Removal of residual pesticide, fenitrothion, in vegetables by using ozone microbubbles generated by different methods. J Food Eng 103:345–9
- Kaushik G, Satya S, Naik SN. (2009). Food processing a tool to pesticide residue dissipation – A review. Food Res Int 42:26–40
- Kong Z, Shan W, Dong F, et al. (2012). Effect of home processing on the distribution and reduction of pesticide residues in apples. Food Addit Contam Part A Chem Anal Control Expo Risk Assess 29:1280–7
- Lehotay SJ. (2007). Determination of pesticide residues in foods by acetonitrile extraction and partitioning with magnesium sulfate: collaborative study. J AOAC Int 90:485–520
- Li GC, Wong SS, Tsai MC. (2002). Safety evaluation and regulatory control of pesticide residues in Taiwan. J Food Drug Anal 10:269–77
- Li M, Liu Y, Fan B, et al. (2015). A chemometric processing-factor-based approach to the determination of the fates of five pesticides during apple processing. Food Sci Technol 63:1102–9
- Liang Y, Wang W, Shen Y, et al. (2012). Effects of home preparation on organophosphorus pesticide residues in raw cucumber. Food Chem 133:636–40
- Ling Y, Wang H, Yong WZhang F, et al. (2011). The effects of washing and cooking on chlorpyrifos and its toxic metabolites in vegetables. Food Control 22:54–8
- Nguyen TD, Han EM, Seo MS, et al. (2008). A multi-residue method for the determination of 203 pesticides in rice paddies using gas chromatography/mass spectrometry. Anal Chim Acta 619:76–9
- Park JY, Choi Abd JH, EL, Atyam AM, et al. (2011). Simultaneous multi residue analysis of 41 pesticide residues in cooked foodstuff using QUENCHERS: comparison with classical method. Food Chem 128:241–53
- Saka M, Iijima K, Nishida M, et al. (2008). Effects of processing and cooking on the levels of pesticide residues in rice samples. J Food Hyg Soc Jpn 49:141–9
- Satoh M, Sakaguchi M, Kobata M, et al. (2003). Effects of rice cleaning and cooking process on the residues of flutolanil, fenobucarb, silafluofen and buprofezin in rice. J Food Hyg Soc Jpn 44:7–12
- Satpathy G, Tyagi YK, Gupta RK. (2012). Removal of organophosphorus (OP) pesticide residues from vegetables using washing solutions and boiling. J Agric Sci 4:69–78
- Sharma J, Satya S, Kumar V, Tewary DK. (2005). Dissipation of pesticides during bread making. Chem Health Saf 12:17–22
- Shoeibi S, Amirahmadi M, Yazdanpanah H, et al. (2011). Effect of cooking process on the residues of three carbamate pesticides in rice. Iran J Pharm Res 10:119–26
- Shoeibi S, Amirahmadi M, Rastegar H, et al. (2013). An applicable strategy for improvement recovery in simultaneous analysis of 20 pesticides residue in tea. J Food Sci 78:T792–6. doi:10.1111/1750-3841.12100
- Soliman KM. (2001). Changes in concentration of pesticide residues in potatoes during washing and home preparation. Food Chem Toxicol 39:887–91
- Street JC. (1969). Methods of removal of pesticide residues. Can Med Assoc J 100:154–60
- Tadeo JL, Sánchez-Brunete C, González L. (2008). Pesticides: classification and properties. In: Tadeo JL, ed. Analysis of pesticides in food and environmental samples. New York: CRC Press, 1–34
- Yang A, Park JH, El-atya MA, et al. (2012). Synergistic effect of washing and cooking on the removal of multi-classes of pesticides from various food samples. Food Control 28:99–105
- Zhang Z, Jiang WW, Jian Q, et al. (2015). Changes of field incurred chlorpyrifos and its toxic metabolite residues in rice during food processing from-RAC-to-consumption. PLoS One 10:e0116467