1. Ambrus A, Soboleva E (2004) Contribution of sampling to the variability of pesticide residue data. J AOAC Int 87(6):1368–1379. https://doi.org/10.1093/jaoac/87.6.1368

2. Benzing A, Piepho HP, Malik WA, Finckh MR, Mittelhammer M, Strempel D, Jaschik J, Neuendorff J, Guamán L, Mancheno J, Melo L, Pavón O, Cangahuamín R, Ullauri JC (2021) Appropriate sampling methods and statistics can tell apart fraud from pesticide drift in organic farming. Sci Rep 11:14776. https://doi.org/10.1038/s41598-021-93624-8

3. Codex (1999) Codex Alimentarious Commission (CAC) recommended methods of sampling for the determination of pesticide residues for compliance with MRLs. CAC/GL 33. https://www.fao.org/input/download/standards/361/CXG_033e.pdf (accessed 20 December 2022)

4. Codex (2019) Guidelines on the use of mass spectrometry for the identification, confirmation and quantitative determination of pesticide residues (CXG 56-2005). Website: https://www.fao.org/fao-who-codexalimentarius/sh-proxy/en/?lnk=1&url=https://workspace.fao.org/sites/codex/Meetings/CX-718-51/WDs/pr51_13e.pdf (accessed 20 December 2022)

5. Collins EJ, Bowyer C, Tsouza A, Chopra M (2022) Tomatoes: an extensive review of the associated health impacts of tomatoes and factors that can affect their cultivation. Biology 11(2):239. https://doi.org/10.3390/biology11020239