References
- Barry CS, Giovannoni JJ. 2007. Ethylene and fruit ripening. J Plant Growth Regul. 26:143.
- Bingham E, Cohrssen B, Powell CH. 2001. Patty’s toxicology. Volume 2: toxicological issues related to metals, neurotoxicology and radiation metals and metal compounds. 5th ed. Vol. 2, New York (NY): John Wiley and Sons; p. 118.
- Calcium carbide (CAS Registry No. 75-20-7). Hazardous Substances Data Bank (HSDB). [accessed 2010 Jul 4]. http:/toxnet.nim.nih.gov.
- Chandel R, Sharma PC, Gupta A. 2017. Methods for detection and removal of arsenic residues in calcium carbide ripened mangoes. J Food Process Preserv. 42(2):e13420.
- Chow M. 1979. The preoccupation with food safety. In: Chow M, Harmon TDP Jr., editors. Critical food issues for the eighties. New York (NY): Pergamon Press; p. 14–42.
- Cua AU, Lizada MC. 1989. Ethylene production in the ‘Carabao’ mango (Mangifera indica L.) fruit during maturation and ripening. Symp Trop Fruit Int Trade. 269:169–180.
- Delpierre M. 1974. Manuel de laboratoire de analyses des dentees alimentaires. Rapport Interne FAO-ITA. 74:12–15.
- Downey G. 1987. Review and assessment of food and nutrition policies. In: Gormely TR, Downey G, O`Beirne D, editors. Food, health and the consumer. London (UK): Elsevier Applied Science Publishers Ltd.; p. 121–212.
- Elavarasi M, Rajeshwari A, Chandrasekaran N, Mukherjee A. 2013. Simple colorimetric detection of Cr (III) in aqueous solutions by as synthesized citrate capped gold nanoparticles and development of a paper based assay. Anal Methods. 5(21):6211–8.M.
- Food Safety and Standards Act 2006. 2011. Rules 2011, regulations. 7th ed. Delhi: International Law Book Company; p. 643.
- Guo Y, Wang Z, Qu W, Shao H, Jiang X. 2011. Colorimetric detection of mercury, lead and copper ions simultaneously using protein-functionalized gold nanoparticles. Biosens Bioelectron. 26(10):4064–4069.
- Luo Y, Xu J, Li Y, Gao H, Guo J, Shen F, Sun C. 2015. A novel colorimetric aptasensor using cysteamine-stabilized gold nanoparticles as probe for rapid and specific detection of tetracycline in raw milk. Food Control. 31(54):7–15.
- Mahmood T, Saeed I, Anwar H, Mahmood I, Zubair A. 2013. Comparative study to evaluate the effect of calcium carbide (CAC2) as an artificial ripening agent on shelf life, physiochemical properties, iron contaminant and quality of Pramus persica. L.Batsch EAR. 1(5):685–700.
- Malarkodi C, Rajeshkumar S, Annadurai G. 2017. Detection of environmentally hazardous pesticide in fruit and vegetable samples using gold nanoparticles. Food Control. 80:11–18.
- Mao X, Li ZP, Tang ZY. 2011. One pot synthesis of monodispersed L-glutathione stabilized gold nanoparticles for the detection of Pb 2+ ions. Front Mater Sci. 5(3):322–328.
- Mariappan P. 2004 July 29. How do raw mangoes and bananas become ripe when treated with chemicals (Answer-2)? The Hindu-Online edition of India’s National Newspaper.
- Oetiker JH, Yang SF. 1995. The role of ethylene in fruit ripening. Postharvest Physiol Fruits. 398:167–178.
- PFA. 1955. Prevention of Food Adulteration Act (1954) and rules (1955) of India. New Delhi: Confederation of Indian Industry.
- Rahman AU, Chowdhury FB, Alam MDB. 2008. Artificial ripening: what are we eating? J Med. 9:42–44.
- Shrivas K, Shankarb R, Dewangan K. 2015. Gold nanoparticles as a localized surface plasmon resonance based chemical sensor for on-site colorimetric detection of arsenic in water samples. Sens Actuators B Chem. 220:1376–1383.
- Siddiqui M, Wasim D, Dhua RS. 2010. Eating artificially ripened fruits is harmful. Curr Sci. 99:12.
- Singh Z, Janes J. 2001. Effect of postharvest application of ethephon on fruit ripening, quality and shelf life of mango under modified atmosphere packing. Acta Hortic. 553:599–601.
- Smitha SL, Philip D, Gopchandrana KG. 2009. Green synthesis of gold nanoparticles using Cinnamomum zeylanicum leaf broth, Spectrochim. Acta A. 74:735–739.
- Sy O, Wainwright H. 1990. Fruit ripening with calcium carbide. Trop Sci. 30:411–420.
- Xue Y, Zhao H, Wu Z, Li X, He Y, Yuan Z. 2011. Colorimetric detection of Cd 2+ using gold nanoparticles cofunctionalized with 6-mercaptonicotinic acid and l-cysteine. Analyst. 136(18):3725–3730.
- Yang W, Gooding JJ, He Z, Li Q, Chen G. 2007. Fast colorimetric detection of copper ions using L-cysteine functionalized gold nanoparticles. J Nanosci Nanotechnol. 1; 7(2):712–716.