The use of pesticides in fresh food of plant origin (FFPO) such as horticulture products is widely known. Such broad implementation of pesticide can result in a tremendous usage of pesticides and, afterward, in intolerable levels of pesticide residues in the products. In this work, we analyzed the pesticide residues in FFPO - which include fruits, vegetables, and rice - from some provinces in Indonesia. These products are taken from the market as samples for this analysis and they were not washed before the test. The test for pesticide residues uses two kinds of tests, which are: Rapid Test Kit that gives the qualitative result (presence or absence of active ingredients residual) without showing the amount of pesticide residue itself; and laboratory test that gives a quantitative result of pesticide active ingredients residual. Lab test data analysis shows that 98.58% of total samples from 26 provinces do not contain or have residues under MRLs so that it is stated as achieving food safety requirements. The pesticide residues include Organophosphate, Carbamate, Pyrethroid, Organochlorine, N-Phenylpyrazole, and Neonicotinoid groups of pesticide. Considering the effect of pesticide (residue) on human health and to environmental sustainability, efforts to control pesticide use need to be continued.

Abdou, K. A., & El-Atta, H. M. A. (2018). Epidemiology of pesticides in developing countries. Advances in Clinical Toxicology, 3(1), 1–8. DOI

Ahmed, A., Randhawa, M. A., Yusuf, M. J., & Khalid, N. (2011). effect of processing on pesticide residues in food crops - A review. Journal of Agricultural Research, 49(3), 379-390. Retrieved from PDF

Alegantina, S., Reini, M., & Lastari, P. (2005). Penelitian kandungan organofosfat dalam tomat dan slada yang beredar di beberapa jenis pasar di DKI Jakarta. Media Penelitian Dan Pengembangan Kesehatan, 15(1), 44–49. Retrieved from website

Aloizou, A.-M., Siokas, V., Vogiatzi, C., Peristeri, E., Docea, A. O., Petrakis, D., Dardiotis, E. (2020). Pesticides, cognitive functions and dementia: A review. Toxicology Letters, 326, 31–51. DOI

Amilia, E., Joy, B., & Sunardi, S. (2016). Residu pestisida pada tanaman hortikultura (Studi kasus di Desa Cihanjuang Rahayu Kecamatan Parongpong Kabupaten Bandung Barat). Agrikultura, 27(1), 23–29. DOI

Ardiwinata, A. N., & Nursyamsi, D. (2012). Residu pestisida di sentra produksi padi di Jawa Tengah. Pangan, 21(1), 39–58. Retrieved from website

Bouchard, M. F., Chevrier, J., Harley, K. G., Kogut, K., Vedar, M., Calderon, N., … Eskenazi, B. (2011). Prenatal exposure to organophosphate pesticides and IQ in 7-year-old children. Environmental Health Perspectives, 119(8), 1189–1195. DOI

BPS. (2019). Statistik tanaman sayuran dan buahbuahan semusim Indonesia 2018. Jakarta, ID: Badan Pusat Statistik. Retrieved from website

BSN. (2008). SNI 7313:2008. Indonesia. Retrieved from website

Büchel, K. H. (1983). Chemistry of pesticides. Minnesota: Wiley. Retrieved from website

Codex Alimentarius International Food Standards. (2020). 158 - Glyphosate. Rome, IT. Retrieved from website

Costa, C., Teodoro, M., Rugolo, C. A., Alibrando, C., Giambò, F., Briguglio, G., & Fenga, C. (2020). MicroRNAs alteration as early biomarkers for cancer and neurodegenerative diseases: New challenges in pesticides exposure. Toxicology Reports, 7, 759–767. DOI

Drum, C. (1980). Soil chemistry of pesticides. USA: PPG Industries Inc. Retrieved from website

Ecobichon, D. J. (2001). Pesticide use in developing countries. Toxicology, 160(1), 27–33. DOI

European Food Safety Authority. (2015). The 2013 European Union report on pesticide residues in food. EFSA Journal, 13(3), 4038. DOI

FAO. (2005). Control of pesticide use and Maximum Residue Limits(MRLs) of pesticides. Retrieved from PDF

GEMS/Food & Codex Committee on Pesticide Residues. (1997). Guidelines for predicting dietary intake of pesticide residues (revised). Switzerland: World Health Organization. Retrieved from website

Hartini, E. (2014). Kontaminasi residu pestisida dalam buah melon (Studi kasus pada petani di Kecamatan Penawangan). Jurnal Kesehatan Masyarakat, 10(1), 96–102. Retrieved from website

Hlihor, R.-M., Pogăcean, M. O., Rosca, M., Cozma, P., & Gavrilescu, M. (2019). Modelling the behavior of pesticide residues in tomatoes and their associated long-term exposure risks. Journal of Environmental Management, 233, 523–529. DOI

Juraske, R., Mutel, C. L., Stoessel, F., & Hellweg, S. (2009). Life cycle human toxicity assessment of pesticides: Comparing fruit and vegetable diets in Switzerland and the United States. Chemosphere, 77(7), 939–945. DOI

Kariathi, V., Kassim, N., & Kimanya, M. (2017). Risk of exposures of pesticide residues from tomato in Tanzania. African Journal of Food Science, 11(8), 255–262. DOI

Karunamoorthi, K., Mohammed, M., & Wassie, F. (2012). Knowledge and practices of farmers with reference to pesticide management: Implications on human health. Archives of Environmental & Occupational Health, 67(2), 109–116. DOI

Kaur, R., Mavi, G. K., & Raghav, S. (2019). Pesticides classification and its impact on environment. International Journal of Current Microbiology and Applied Sciences, 8(3), 1889–1897. DOI

Keikotlhaile, B. M., Spanoghe, P., & Steurbaut, W. (2010). Effects of food processing on pesticide residues in fruits and vegetables: A meta-analysis approach. Food and Chemical Toxicology, 48(1), 1–6. DOI

Kementerian Pertanian. (2015). Peraturan Menteri Pertanian tentang pendaftaran pestisida. Indonesia. Retrieved from PDF

Kementerian Pertanian. (2016). Peraturan Menteri Pertanian tentang pengawasan keamanan pangan terhadap pemasukan pangan segar asal tumbuhan. Indonesia. Retrieved from website

Kim, K.-H., Kabir, E., & Jahan, S. A. (2017). Exposure to pesticides and the associated human health effects. Science of The Total Environment, 575, 525–535. DOI

Kiwango, P. A., Kassim, N., & Kimanya, M. E. (2018). Pesticide residues in vegetables: Practical interventions to minimize the risk of human exposure in Tanzania. Current Journal of Applied Science and Technology, 26(1), 1-18. DOI

Koleva, N. G., & Schneider, U. A. (2009). The impact of climate change on the external cost of pesticide applications in US agriculture. International Journal of Agricultural Sustainability, 7(3), 203–216. DOI

Miskiyah, & Munarso, S. J. (2009). Kontaminasi residu pestisida pada cabai merah, selada, dan bawang merah (Studi kasus di Bandungan dan Brebes Jawa Tengah serta Cianjur Jawa Barat). Jurnal Hortikultura, 19(1), 101–111. Retrieved from website

Nacorda, E. R., Vasquez, P. P. G., Lador, R. P., & MoraGarcia, C. (2019). Assessment of agrochemical use among rice field farmers in municipalities surrounding Lake Mainit, Philippines. International Journal of Development and Sustainability, 8(9), 633-644. Retrieved from PDF

Norton, G., Sanchez, G., Clarke-Harris, D., & Traoré, H. K. (2003). Food safety in food security and food trade case study: Reducing pesticide residues on horticultural crops. Washington, DC. Retrieved from website

Pan, Y., Ren, Y., & Luning, P. A. (2021). Factors influencing Chinese farmers’ proper pesticide application in agricultural products – A review. Food Control, 122, 107788. DOI

Pemerintah Pusat. (2004). Peraturan Pemerintah (PP) tentang keamanan, mutu dan gizi pangan. Indonesia. Retrieved from PDF

Pemerintah Pusat. (2012). Undang-undang (UU) tentang Pangan. Indonesia. Retrieved from website

Pemerintah Pusat. (2019). Peraturan Pemerintah (PP) tentang Keamanan pangan. Indonesia. Retrieved from website

Popp, J., Pető, K., & Nagy, J. (2013). Pesticide productivity and food security, A review. Agronomy for Sustainable Development, 33(1), 243–255. DOI

Putri, G. G., Sunarti, & Suhartini. (2016). Ketinggian lokasi dan residu pestisida pada tomat: Studi di Kota Batu dan Kabupaten Tulungagung. Berita Kedokteran Masyarakat, 32(5), 157-164. DOI

Reigart, J. R. (1999). Recognition and management of pesticide poisonings. USA: U.S. Environmental Protection Agency. Retrieved from website

Roberts, J. R., & Karr, C. J. (2012). Pesticide exposure in children. Pediatrics, 130(6), e1765–e1788. DOI

Rosita, G., Donatella, F., & Cinzia, N. (2016). Accumulation of damage due to lifelong exposure to environmental pollution as dietary target in aging. In M. Malavolta & E. Mocchegiani (Eds.), Molecular Basis of Nutrition and Aging (pp. 177–188). San Diego: Academic Press. DOI

Sapbamrer, R., & Hongsibsong, S. (2014). Organophosphorus pesticide residues in vegetables from farms, markets, and a supermarket around Kwan Phayao Lake of Northern Thailand. Archives of Environmental Contamination and Toxicology, 67(1), 60–67. DOI

Schreinemachers, P., Chen, H., Nguyen, T. T. L., Buntong, B., Bouapao, L., Gautam, S., … Srinivasan, R. (2017). Too much to handle? Pesticide dependence of smallholder vegetable farmers in Southeast Asia. Science of The Total Environment, 593–594, 470–477. DOI

Shattuck, A. (2019). Risky subjects: Embodiment and partial knowledges in the safe use of pesticide. Geoforum. DOI

Sudarmo, S. (1991). Pestisida. Yogyakarta: Kanisius. Retrieved from website

USDA Agricultural Marketing Service. (2019). Pesticide data program annual summary reports. Retrieved from website

Veres, A., Wyckhuys, K. A. G., Kiss, J., Tóth, F., Burgio, G., Pons, X., … Furlan, L. (2020). An update of the Worldwide Integrated Assessment (WIA) on systemic pesticides. Part 4: Alternatives in major cropping systems. Environmental Science and Pollution Research, 27(24), 29867–29899. DOI

Yadav, I. C., Devi, N. L., Syed, J. H., Cheng, Z., Li, J., Zhang, G., & Jones, K. C. (2015). Current status of persistent organic pesticides residues in air, water, and soil, and their possible effect on neighboring countries: A comprehensive review of India. Science of The Total Environment, 511, 123–137. DOI

Yu, C., Li, Y., Zhang, Q., Zou, N., Gu, K., Li, X., & Pan, C. (2014). Decrease of pirimiphos-methyl and deltamethrin residues in stored rice with postharvest treatment. International Journal of Environmental Research and Public Health, 11(5), 5372–5381. DOI

Yuantari, M. G. C., Widianarko, B., & Sunoko, H. R. (2015). Analisis risiko pajanan pestisida terhadap kesehatan petani. Jurnal Kesehatan Masyarakat, 10(2), 239-245. DOI