References
- Abou-Arab AAK. 1999. Behavior of pesticides in tomatoes during commercial and home preparation. Food Chem. 65:509–514.
- Chen X, Dong FS, Liu XG, Xu J, Li J, Li YB, Li MM, Wang YH, Zheng YQ. 2013. Chiral determination of a novel acaricide cyflumetofen enantiomers in cucumber, tomato, and apple by HPLC. J Sep Sci. 36:225–231.
- FAO/WHO. 2006. Updating the principles and methods of risk assessment: MRLs for pesticides and veterinary drugs. Rome: FAO.
- Han YT, Li WM, Dong FS, Xu J, Liu XG, Li YB, Kong ZQ, Liang XY, Zheng YQ. 2013. The behavior of chlorpyrifos and its metabolite 3,5,6-trichloro-2-pyridinol in tomatoes during home canning. Food Control. 31:560–565.
- Isaacson T, Kosma DK, Matas AJ, Buda GJ, He Y, Yu B, Pravitasari A, Batteas JD, Stark RE, Jenks MA, Rose JKC. 2009. Cutin deficiency in the tomato fruit cuticle consistently affects resistance to microbial infection and biomechanical properties, but not transpirational water loss. Plant J. 60:363–377.
- Kimbara J, Yoshida M, Ito H, Hosoi K, Kusano M, Kobayashi M, Ariizumi T, Asamizu E, Ezura H. 2012. A novel class of sticky peel and light green mutations causes cuticle deficiency in leaves and fruits of tomato (Solanum lycopersicum). Planta. 236:1559–1570.
- Kong ZQ, Dong FS, Xu J, Liu XG, Zhang CP, Li J, Li YB, Chen X, Shan WL, Zheng YQ. 2012. Determination of difenoconazole residue in tomato during home canning by UPLC-MS/MS. Food Control. 23:542–546.
- Krol WJ, Arsenault TL, Pylypiw HM Jr, Incorvia Mattina MJ. 2000. Reduction of pesticide residues on produce by rinsing. J Agric Food Chem. 48:4666–4670.
- Li MM, Liu XG, Dong FS, Xu J, Kong ZQ, Li YB, Zheng YQ. 2013. Simultaneous determination of cyflumetofen and its main metabolite residues in samples of plant and animal origin using multi-walled carbon nanotubes in dispersive solid-phase extraction and ultrahigh performance liquid chromatography-tandem mass spectrometry. J Chromatogr A. 1300:95–103.
- Li MM, Liu XG, Dong FS, Xu J, Qin DM, Zheng YQ. 2012. Determination of cyflumetofen residue in water, soil, and fruits by modified quick, easy, cheap, effective, rugged, and safe method coupled to gas chromatography/tandem mass spectrometry. J Sep Sci. 35:2743–2749.
- Liu N, Dong FS, Liu XG, Xu J, Li YB, Han YT, Zhu YL, Cheng YP, Chen ZL, Tao Y, Zheng YQ. 2014. Effect of household canning on the distribution and reduction of thiophanate-methyl and its metabolite carbendazim residues in tomato. Food Control. 43:115–120.
- OECD. 2007. ENV/JM/MONO. Guidance document on pesticide residue analytical methods, 17, 18–28.
- Takahashi N, Nakagawa H, Sasama Y, Ikemi N. 2012. Development of a new acaricide, cyflumetofen. J Pest Sci. 37:263–264.
- Timme G, Walz-Tylla B. 2004. Effects of food preparation and processing on pesticide residues in commodities of plant origin. In: Hamilton D, Crossley S, editors. Pesticide residues in food and drinking water. Chichester: Wiley; p. 121–148.
- Zhao PY, Huang BY, Li YJ, Han YT, Zou N, Gu KJ, Li XS, Pan CP. 2014. Rapid multiplug filtration cleanup with multiple-walled carbon nanotubes and gas chromatography-triple-quadruple mass spectrometry detection for 186 pesticide residues in tomato and tomato products. J Agric Food Chem. 62:3710–3725.