https://orcid.org/0000-0002-9528-3327
References
- Antunes MDC, Sfakiotakis EM. 2000. Effect of high temperature stress on ethylene biosynthesis, respiration and ripening of ‘Hayward’ kiwifruit. Postharvest Biol Technol. 20(3):251–259.
- Blanke MM. 2014. Reducing ethylene levels along the food supply chain: a key to reducing food waste? J Sci Food Agric. 94(12):2357–2361.
- Blanke MM, Shekarriz R. 2010. Gold nanoparticles and sensor technology for sensitive ethylene detection. Acta Hortic. 934:255–262.
- Bollen A, Tanner D, Soon C, East A, Dagar A, Sharshevsky H, Pelech Y. 2013. Wireless temperature monitoring system in a global kiwifruit supply chain. Acta Hortic. 1091:205–212.
- Boselie D, Henson S, Weatherspoon D. 2003. Supermarket procurement practices in developing countries: redefining the roles of the public and private sectors. Am J Agric Econ. 85(5):1155–1161.
- Goel V. 2010. Supply chains and chain coordination mechanisms for fresh fruits: a case study of Mumbai city, India. Acta Hortic. 895:121–128.
- Goldman A, Hino H. 2005. Supermarkets vs. traditional retail stores: diagnosing the barriers to supermarkets market share growth in an ethnic minority community. J Retail Consum Serv. 12(4):273–284.
- Gorton M, Sauer J, Supatpongkul P. 2011. Wet markets, supermarkets and the “big middle” for food retailing in developing countries: evidence from Thailand. World Dev. 39(9):1624–1637.
- Gwanpua SG, Jabbar A, Tongonya J, Nicholson S, East AR. 2018. Measuring ethylene in postharvest biology research using the laser-based ETD-300 ethylene detector. Plant Methods. 14(1):105–121.
- Hewett EW. 2003. Perceptions of supply chain management for perishable horticultural crops: an introduction. Acta Hortic. 604:37–46.
- Hrudya P, Varikoden H, Vishnu R, Kuttippurath J. 2020. Changes in ENSO-monsoon relations from early to recent decades during onset, peak and withdrawal phases of Indian summer monsoon. Clim Dyn. 55(5):1457–1471.
- Jabbar A, East AR. 2016. Quantifying the ethylene induced softening and low temperature breakdown of ‘Hayward’ kiwifruit in storage. Postharvest Biol Technol. 113:87–94.
- Janssen S, Schmitt K, Blanke M, Bauersfeld M, Wöllenstein J, Lang W. 2014. Ethylene detection in fruit supply chains. Philos Trans R Soc A. 372(2017):1–21.
- Jayashiva SPB. 2012. Prediction of storage potential and firmness loss of ‘Hayward’ kiwifruit along the supply chains in India [master’s thesis]. Auckland, (New Zealand): Massey University.
- Keller N, Ducamp MN, Robert D, Keller VR. 2013. Ethylene removal and fresh product storage: a challenge at the frontiers of chemistry. towards an approach by photocatalytic oxidation. Chem Rev. 113(7):5029–5070.
- Kelly M, Seubsman S, Banwell C, Dixon J, Sleigh A. 2015. Traditional, modern or mixed? perspectives on social, economic, and health impacts of evolving food retail in Thailand. Agric Human Values. 32(3):445–460.
- Kilgour M, Saunders CM, Scrimgeour F, Zellman E. 2008. The key elements of success and failure in the NZ kiwifruit industry. Agribusiness and Economics Research Unit (AERU), Lincoln University, Christchurch, New Zealand. Report No.: 311.
- Knee M, Proctor F, Dover C. 1985. The technology of ethylene control: use and removal in post-harvest handling of horticultural commodities. Ann Appl Biol. 107(3):581–595.
- Lu X. 2020. Ethylene as a contaminant in the industrial horticultural distribution chain [master’s thesis]. Palmerston North (New Zealand): Massey University.
- Martin R. 2002. The production and marketing of New Zealand kiwifruit. Acta Hortic. 610:25–28.
- Mashau M, Moyane J, Jideani I. 2012. Assessment of post-harvest losses of fruits at Tshakhuma fruit market in Limpopo province, South Africa. Afr J Agric Res. 7(29):4145–4150.
- Morris L, Kader A, Klaustermeyer J, Cheyney C. 1978. Avoiding ethylene concentrations in harvested lettuce. Calif Agric. 32(6):14–15.
- Nuthalapati CS, Sutradhar R, Reardon T, Qaim M. 2020. Supermarket procurement and farmgate prices in India. World Dev. 134:105034.
- Parthasarathy B, Pant G. 1985. Seasonal relationships between Indian summer monsoon rainfall and the southern oscillation. Int J Climatol. 5(4):369–378.
- Pranamornkith T, East A, Heyes J. 2012. Influence of exogenous ethylene during refrigerated storage on storability and quality of Actinidia chinensis (cv. Hort16A). Postharvest Biol Technol. 64(1):1–8.
- Retamales J, Campos R. 1995. Extremely low ethylene levels in ambient air are still critical for kiwifruit storage. Acta Hortic. 444(2):573–578.
- Schipmann C, Qaim M. 2011. Modern food retailers and traditional markets in developing countries: comparing quality, prices, and competition strategies in Thailand. Appl Econ Perspect Policy. 33(3):345–362.
- Schouten SP. 1985. Significance of ethylene in post-harvest handling of vegetables. In: Roberts JA, Tucker GA, editor. Ethylene and plant development. Oxford, UK: Elsevier Science; p. 353–362.
- Tongonya J, Gwanpua S, East A. 2017. Exposure to low ethylene concentrations in supply chain conditions cause differential quality attributes in ‘SunGold™’ kiwifruit. Acta Hortic. 1201:169–176.
- Trappey C, Lai MK. 1997. Differences in factors attracting consumers to Taiwan's supermarkets and traditional wet markets. J Fam Econ Issues. 18(2):211–224.
- Verschoor JA. 2017. Evaluation of MACView® Portable Ethylene Postharvest Gas Analyser: independent test of suitability and performance for use in horticultural settings. Wageningen Food and Biobased Research, Netherlands. Report No.: 1753.
- Ward C, Courtney D. 2013. Kiwifruit: taking its place in the global fruit bowl. Adv Food Nutr Res. 68:1–14.
- Warton M, Wills R, Ku V. 2000. Ethylene levels associated with fruit and vegetables during marketing. Aus J Exp Agric. 40(3):465–470.
- Zhao JM. 2017. Development of a mathematical model for ‘Hayward’ kiwifruit softening in the supply chain [dissertation] Palmerston North (New Zealand): Massey University.