氣調技術應用於‘大目’釋迦採後貯運之研究

Chia-Hsun Chang; 張家薰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/20620

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	吳俊達(Chun-Ta Wu)
dc.contributor.author	Chia-Hsun Chang	en
dc.contributor.author	張家薰	zh_TW
dc.date.accessioned	2021-06-08T02:55:42Z	-
dc.date.copyright	2021-02-20
dc.date.issued	2021
dc.date.submitted	2021-02-17
dc.identifier.citation	江淑雯、盧柏松. 2010. 鳳梨釋迦外銷問題之探討與解決之道. 臺東區農業專訊. 73:4-8. 江淑雯、盧柏松. 2017. 番荔枝(釋迦及鳳梨釋迦). p. 130-149. 刊於：劉碧鵑、郭展宏、徐智政、陳薪喨(主編).重要外銷水果採收後處理專刊. 行政院農業委員會農業試驗所鳳山熱帶園藝試驗分所編印. 江淑雯、盧柏松、黃慶文. 2014. 番荔枝（釋迦及鳳梨釋迦）. p. 97-109. 刊於：劉碧鵑（主編）.主要外銷果樹採後處理專刊（再版）. 行政院農業委員會農業試驗所鳳山熱帶園藝試驗分所編印. 林豐瑞、陳科竹、楊蕙綺. 2012. 台東地區番荔枝產業經營關鍵成功因素之探討. 台灣農學會報. 13(1)：127-141. 林慶喜、張愛華、劉慧瑛、張喜寧. 1997. 番荔枝果實缺鈣症. 台東區農業專訊 19:16-18。李建勳、楊正山、柯立祥. 2005. 1-MCP及貯藏溫度對鳳梨釋迦後熟生理之影響. p.79-90. 刊於：黃肇家、黃錦杰、歐錫坤、林俊義（主編）. 園產品採後處理技術之研究與應用研討會專刊. 行政院農業委員會農業試驗所編印. 李建勳、楊正山. 2004. 鳳梨釋迦果實保鮮技術之研究. 臺東區農業改良場研究彙報。15:29-40. 陳晶晶、段雅婕、莫亿伟、胡玉林、胡会刚、谢江辉. 2015. 裂果性不同的番荔枝品種果皮中細胞壁代謝相關基因的表達分析. 果樹學報 32(5):769-776. 柯立祥、楊正山、俞永標、蔡平里. 1983. 番荔枝果實之後熟與貯藏. 中國園藝. 29：257-268. 詹弘彥、葉仲基. 2013. 氣調儲藏自動化監控系統在釋迦之應用. p.118-123. 刊於:楊智凱、吳有恒、黃禮棟、邱銀珍、姚明輝(主編). 102 年度農業工程與自動化計畫成果研討會論文集. 行政院農業委員會農業試驗所編印. 陳勃聿、吳昌祐. 2013. 鳳梨釋迦產業之現況與展望. 臺東區農業專刊 83:2-10. 黃明得. 2003. 臺灣鳳梨釋迦外銷潛力與發展策略. 台東區農業專訊. 45:2-8. 黃德昌. 2010. 病害發生及綜合防治技術, p. 42-51. 刊於：王仕賢主編. 番荔枝生產管理手冊. 行政院農業委員會臺東區農業改良場. 臺東. 臺灣. 楊正山、黃明得. 2006. 番荔枝與鳳梨釋迦之花藥稀釋增量劑對著果之影響. 臺東區農業改良場研究彙報. 16:21-38. 楊正山. 1996. 番荔枝產業經營與展望. 臺灣熱帶地區果園經營管理研討會專刊. 高雄區農業改良場編印. p. 119-134. 楊欣怡. 2000. 鳳梨釋迦及數種番荔枝果實生理與貯藏之研究. 國立屏東科技大學熱帶農業研究所碩士論文. 屏東. 劉富文. 1995. 園產品採後處理及貯藏技術. 臺灣省青果運銷合作社. 臺北. 蔡龍銘、吳明昌. 1989. 番荔枝果實貯藏中的數種酵素活性變化之研究. 技術學刊 4(1):83-88. 盧柏松. 2014. 前言. p. 4-5. 刊於：陳昱初（主編）. 鳳梨釋迦健康管理手冊（再版）. 臺東區農業改良場技術專刊＜特57輯＞.行政院農業委員會臺東區農業改良場編印. Alique, R., J.P. Zamorano, M.L. Calvo, C. Merodio, J.L. De la Plaza. 1994. Tolerance of cherimoya (Annona cherimola Mill.) to cold storage. J. Amer. Soc. Hort. Sci. 119: 524-528. Alscher, R.G., J.L. Donahue, and C.L. Cramer. 1997. Reactive oxygen species and antioxidants: relationships in green cells. Physiologia Plantarum. 100:224-233. Andrade. E.H.A, Zoghbi. M.G.B, Maia. J.H.G.S, Fabricius. H, Marx. F. 2001. Chemical characterization of the fruit of Annona squamosa L. occurring in the Amazon J. Food Compos. Anal. 14 : 227-232 Argenta, L.C., X.T. Fan, and J.P. Mattheis. 2003. Influence of 1-methylcyclopropene on ripening, storage life, and volatile production by d'Anjou cv. pear fruit. J. Agric. Food. Chem. 51:3858-3864. Artés, F. 1993. Diseno y cálculo de polímeros sintéticos de interes para la conservación hortofrutícola en atmósfera modificada. p. 427-454. In: A. Madrid (ed.). Nuevo curso de ingeniería del frío. Murcia: Colegio Oficial de Ingenieros Agronómos de Murcia. Colegio Oficial de Ingenieros Agrónomos, Madrid, Spain. Bartley, J.P. 1987. Volatile constitutents of custard apple. Chromatographia. 23:129-131. Beaudry, M. 2000. Responses of horticultural commodities to oxygen limits to the expanded use of modified atmosphere packaging. HortTechnology 10:491-500. Bekele, E.A., W.F. Beshir, M.L.A.T.M. Hertog, B.M. Nicolai, and A.H. Geeraerd. 2015. Metabolic profiling reveals ethylene mediated metabolic changes and a coordinated adaptive mechanism of ‘Jonagold’ apple to low oxygen stress. Physiol. Plant. 155:232-247. Benassi, G., G. Correa, R.A. Kluge, and A.P. Jacomino. 2003. Shelf life of custard apple treated with 1-methylciclopropene — an antagonist to the ethylene action. Braz. Arch. Biol. Technol. 46:115-119. Biale, J. B. and D.E. Barcus. 1970. Respiratory patterns in tropical fruits of the Amazon. Brasin Tropical Sciences. 12(2):93−104. Blankenship, S.M. and J.M. Dole. 2003. 1-methylcyclopropene: a review. Postharvest Biol. Technol. 28:1-25. Bodbodak, S. and M. Moshfeghifar. 2016. Advances in modified atmosphere packaging of fruit and vegetables. p. 127-183. In: M.W. Siddiqui (Ed.). Eco-friendly technology for postharvest produce quality. Academic Press, Bihar, India. Bolivar-Fernandez, N., C. Saucedo-Veloz., S. Solís-Pereira., and E. Sauri-Duch. E. 2009. Ripening of sugar apple fruits ( Annona squamosa L.) developed in Yucatán, México. Agrociencia. 43:133-141. Brito, B., M. Rodríguez, I. Samaniego, M.I. Jaramillo, and F. Vaillant. 2007. Characterising polysaccharides in cherimoya (Annona cherimola Mill.) purée and their enzymatic liquefaction. European Food Research and Technology. 226:355-361. Broughton, W.J. and T. Guat. 1979. Storage conditions and ripening of custard apple (Annona squamosa L.). Sci. Hortic. 10:73-82. Brown, B.I. and K.J. Scott. 1985. Cool storage conditions for custard apple fruit (Annona atemoya Hort. ). Singapore J. Primary Ind. 13:23-31. Brown, B.I., L.S. Wong, A.P. George, and R.J. Nissen. 1988. Comparative studies on the postharvest physiology of fruit from different species of Annona (custard apple). Jounal of Horticultural Science. 63:521-528. Cameron, A.C. and M.S. Reid. 2001. 1-MCP blocks ethylene induced petal abscission of Pelargonium peltatum but the effect is transient. Postharvest Biol. Technol. 22:169-177. Carrilo-Lopez, A., A. Cruz-Hernandez, A. Carabez-Trejo, F. Guevara-Lara, and O. Paredes-Lopez. 2002. Hydrolytic activity and ultrastructural changes in fruit skins from two prickly pear (Opuntia species) variet¬ies during storage. Journal of Agricultural and Food Chemistry. 50:1681-1685. Carrilo-Lopez, A., A. Cruz-Hernandez, F. Guevara-Lara, and O. Paredes-Lopez. 2003. Physico-chemical changes during ripening in storage of two varieties of prickly pear stored at 18°C. Journal of Food Science and Technology. 40:461-464. Chen, S., M. Zhang, and S. Wang. 2010. Physiological and quality responses of chinese ‘Suli’ pear (Pyrus bretschneideri Rehd) to 1-MCP vacuum infiltration treatment. J. Sci. Food Agric. 90:1317-1322. Cheng, Y., Y. Dong, H. Yan, W. Ge, C. Shen, J. Guan, L. Liu, Y. Zhang. 2012. Effects of 1-MCP on chlorophyll degradation pathway-associated genes expression and chloroplast ultrastructure during the peel yellowing of Chinese pear fruits in storage. Food Chemistry. 135:415-422. Cordeiro, N., L. Sousa, N. Freitas, and M. Gouveia. 2013. Changes in the mesocarp of Annona cherimola Mill: ‘Madeira’ during postharvest ripening. Postharvest Biol. Technol. 85:179-184. Da Silva, M. G., Lima, J. A. P., Sthel, M. S., Marin, E., Gatts, C. E. N., Cardoso, S. L., et al. 2001. Ethylene and CO2 emission rates in tropical fruits investigated by infrared absorption techniques. Analytical Sciences, 17, 534−537. Defilippi, B.G., A.M. Dandekar, A.A. Kader. 2004. Impact of suppression of ethyleneaction or biosynthesis on flavor metabolites in apple (Malus × domestica Borkh) fruits. J. Agric. Food Chem. 52:5694-5701. Defilippi, B.G., D. Manríquez, K. Luengwilai, and M. González-Agüero. 2009. Aroma volatiles: Biosynthesis and mechanisms of modulation during fruit development. Advances in Botanical Research. 50:1-37. Del Cura, B., M.I. Escribano, J.P. Zamorano, and C. Merodio. 1996. High carbon dioxide delays postharvest changes in RuBPCase and polygalacturonase-related protein in cherimoya peel. J. Am. Soc. Hort. Sci. 121:735-739. Dilley, D.R. 2006. Development of controlled atmosphere storage technologies. Stewart Postharvest Rev. 6(5):1–8. Dixon, J. and E.W. Hewett. 2000. Factors affecting apple aroma avour volatile concentration: a review. New Zealand Journal of Crop and Horticultural Science. 28:155-173. Drake, S.R., D.C. Elfving, S.J. Drake, and D.B. Visser. 2004. Quality of modified atmosphere packaged‘Bartlett’pears as influenced by time and type of storage. J. Food Process. Preserv. 28:348-358. Eckert, J.W., and G.E Brown. 1986. Postharvest diseases and their control. p. 315-360. In: W.F. Wardowski, S. Nagy, and W. Grierson (eds.). Fresh Citrus Fruits. AVI, Westport, CT. El-Sharkawy, I., D. Manríquez, F.B. Flores, F. Regard, M. Bouzayen, A. Latché, and J.C. Pech. 2005. Functional characterization of a melon alcohol acyl-transferase genefamily involved in the biosynthesis of ester volatiles. Identification of the crucialrole of a threonine residue for enzyme activity. Plant Mol. Biol. 59:345-362. Escribano, M. I., B. Del Cura, T. Muñoz, and C. Merodio. 1997. The effect of high carbon dioxide at low temperature on ribulose 1,5-biphosphate carboxylase and polygalacturonase protein levels in cherimoya fruit. Journal of the American Society for Horticultural Science. 122:258-262. Fawbush, F., J.F. Nock, and C.B. Watkins. 2009. Antioxidant contents and activity of 1-methylcyclopropene (1-MCP)-treated‘Empire’apples in air and controlled atmosphere storage. Postharvest Biology and Technology. 52:30-37. Ferreira, L., R. Perestrelo, and J.S. Cämara. 2009. Comparative analysis of the volatilefraction from Annona cherimola Mill. cultivars by solid-phase microextractionand gas chromatography–quadrupole mass spectrometry detection. Talanta. 77:1087-1096. Fidler, J.C. and C.J. North. 1967. The effect of storage on the respiration of apples. I. The effect of temperature and concentration of CO2 and O2 on the production of CO2 and uptake of O2. Journal of Horticulture Science. 42:189–206. Fischer, R.L. and A.B. Bennett. 1991. Role of cell wall hydrolysis in fruit ripening. Annu. Rev. Plant Physiol. Plant Mol. Biol. 42:675-703. Furuta, M., S. Asano, and S. Imai. 1992. Prevention of browning of the peel of pears by polyethylene film packaging. Packag. Technol. Sci. 5:91-100. Fuster, C. and G. Prestamo. 1980. Variation of cherimoya (Annona cherimola) texturing during storage as determined with an instron food testing instrument. Journal of Food Science. 45:142-145. Gaikwad, K. and Y. Lee. 2017. Current scenario of gas scavenging systems used in active packaging—a review. Korean Journal of Packaging Science and Technology. 23(2):109–117. George, A.P., R.J. Nissen, and B.I. Brown. 1987. The custard apple. Queensland Agricultural Journal. 113:287-297. Golding, J. B., Shearer, D., Wyllie, S. G. and McGlasson, W.B. 1998. Application of 1-MCP and propylene to identify ethylene-dependent ripening processes in mature banana fruit. Portharvest Biology and Technology. 14. 87-98. Gong, Y.P. and J.P. Mattheis. 2003. Effect of ethylene and 1-methylcyclopropene on chlorophyll catabolism of broccoli florets. Plant Growth Reg. 40:33-38. Gross, K.C., C.Y. Wang, and M. Saltveit. 2002. Respiration and Ethylene Production Rates, p. 7-10. In: Gross, K.C., C.Y. Wang, and M. Saltveit (eds.). The commercial storage of fruits, vegetables, and florist and nursery stocks. USDA Agriculture Handbook Number 66 (HB-66). Gupta, Y., Pathak, A. K., Singh, K., Mantri, S. S., Singh, S. P., and Tuli, R. 2015. De novo assembly and characterization of transcriptomes of early-stage fruit from two genotypes of Annona squamosa L. with contrast in seed number. BMC Genomics 16:86. Gutierrez, M., M.M. Sola, L. Pascual, M.I. Rodriguez-Garcia, and A.M. Vargas. 1992. Ultrastructural changes in chilling injured cherimoya. Food Structure. 11:323−332. Harker, F.R., K. Marsh, H. Young, S. Murray, F. Gunson, and S. Walker. 2002. Sensory interpretation of instrumental measurements 2: sweet and acid taste of apple fruit. Postharvest Biology and Technology. 24:241-250. Hassana, F.A.S. and S.A. Mahfouz. 2010. Effect of 1-methylcyclopropene (1-MCP) treatment on sweet basil leaf senescence and ethylene production during shelf-life. Hofman, P. J., M. Jobin-Decor, G. F. Meiburg, A. J. Macnish and D. C. Joyce. 2001. Ripening and quality responses of avocado, custard apple, mango and papaya fruit to 1-methylcyclopropene. Aust. J. Exp. Agric. 41(4): 567-572. Idstein, H., W. Herres, and P. Schreier. 1984. High-resolution gas chromatography–massspectrometry and–Fourier transform infrared analysis of cherimoya (Annona cherimola, Mill.) volatiles. J. Agric. Food Chem. 32:383-389. Jeong, J., D.J. Huber, and S.A. Sargent. 2002. Influence of 1-methylcyclopropene (1-MCP) on ripening and cell-wall matrix polysaccharides of avocado (Persea americana) fruit. Postharvest Biol. Tech. 25:241-256. Jeong, J., D.J. Huber, and S.A. Sargent. 2003. Delay of avocado (Persea americana) fruit ripening by 1-methylcyclopropene and wax treatments. Postharvest Biology and Technology. 28:247-257. Jiang, Y., Joyce, D. C. and Macnish, A. J. 1999. Extension of the shelf life of banana fruit by 1- methylcyclopropene in combination with polyethylene bags. Postharvest Biology and Technology. 16. 187-193. Jouki, M and N. Khazaei. 2014. Effect of low-dose gamma radiation and active equilibrium modified atmosphere packaging on shelf life extension of fresh strawberry fruits. Food Packaging Shelf Life. 1:49-55. Kader, A.A. 1986. Biochemical and physiological basis for effects of controlled and modified atmospheres on fruit and vegetables. Food Technol. 40:99-104. Kader, A.A. 1995. Regulation of fruit physiology by controlled/modified atmospheres. Acta Hort. 398:59-70. Kader, A.A. 2002. Postharvest biology and technology: an overview, p. 39-47. In: A.A. Kader (de.). Postharvest technology of horticultural crops (3rd ed.). University of California Agriculture and Natural Resources Publication, California. Kader, A. A. 2002c. Postharvest biology and technology : an overview, in: Kader A.A. (ed.), Postharvest technology of horticultural crops . Third edition. Oakland, CA , University California, Division of Agriculture and Natural Resources, Publication 3311,39 – 47. Kader, A.A. 2003. Physiology of CA treated produce. Acta. Hort. 600:349-354. Kader, A.A. and C.B. Watkins. 2000. Modified atmosphere packaging—towards 2000 and beyond. Hortechnology. 10:483-486. Kader, A.A., D. Zagory, and E.L. Kerbel, 1989. Modified atmosphere packaging of fruits and vegetables. Crit Rev Food Sci Nutr. 28(1):1-30. Kahn, V. 1977. Some biochemical properties of polyphenoloxidase from two avocado varieties differing in their browning rates. J. Food. Sci. 42:38. Kasiolarn, H. 1991. Postharvest Physiology of Sugar Apple (Annona squamosa Linn.) and the Storage of Atemoya (Annona × ‘African Pride’) Fruit. MS Thesis. Kasetsart University. Bangkok, Thailand. Ke, D., E. Yahia, B. Hess, L. Zhou, and A.A. Kader. 1995. Regulation of fermentative metabolism in avocado fruit under oxygen and carbon stresses. Journal of the American Society of Horticultural Science. 720:481-90. Kumhar, DS Pareek, Sunil Ameta, Kapil Dev. 2014. Effect of antioxidants and storage temperatures on browning and quality of custard apple (Annona squamosa L.) pulp. Journal of scientific and industrial research. Accepted. Li, C., W. Shen, W. Lu, Y. Jiang, J. Xie, and J. Chen. 2009. 1-MCP delayed softening and affected expression of XET and EXP genes in harvested cherimoya fruit. Postharvest Biology and Technology. 52:254-259. Lin,Y.F., Y.X. Lin, H.T. Lin, M.S. Lin, H. Li, F Yuan, Y.H. Chen, and J.B. Xiao. 2018. Effects of paper containing 1-MCP postharvest treatment on the disassembly of cell wall polysaccharides and softening in Younai plum fruit during storage. Food Chemistry. 264:1-8. Lima, Maria Mosca, José Trindade, Danielly. 2010. Delay in ripening of African Pride atemoya fruits after postharvest treatment with 1-methylcyclopropene. Food Science and Technology (Campinas). 30. 599-604. Liu, H.X., W.B. Jiang, L.G. Zhou, B.G. Wang, and Y.B. Luo. 2005. The effects of 1-methylcyclopropene on peach fruit (Prunus persica L. cv. Jiubao) ripening and disease resistance. Intl. J. Food Sci. Tech. 40:1-7. Liu, K., J. Liu, H. Li, C. Yuan, J. Zhong, and Y. Chen. 2016. Influence of postharvest citric acid and chitosan coating treatment on ripening attributes and expression of cell wall related genes in cherimoya (Annona cherimola Mill.) fruit. Sci. Hortic. 198:1-11. Liu, K.D, C.C. Yuan, G.X. Jing, H.L. Li, J.X. Liu. 2013. Effect of exogenous oxalic acid treatment on ripening and preservation of Annona squamosa L. fruits during postharvest storage. Food Sci., 14, pp. 329-334 Lyons, J. M. 1973. Chilling injury in plants. Ann. Rev. Plant Physiol. 24:445-466. Mahajan, P.V., F.A.S. Rodrigues, A. Motel, and A. Leonhard. 2008. Development of a moisture absorber for packaging of fresh mushrooms (Agaricus bisporous). Postharvest Biology and Technology. 48:408-414. Maldonado, R., A.D. Molina-Garcia, M.T. Sanchez-Ballesta, M.I. Escribano, and C. Merodio. 2002. High CO2 atmosphere modulating the phenolic response associated with cell adhesion and hardening of Annona cherimola fruit stored at chilling temperature. Journal of Agricultural and Food Chemistry. 50:7564-7569. Maldonado, R., M.T. Sanchez-Ballesta, R. Alique, M.I. Escribano, and C. Merodio, 2004. Malate metabolism and adaptation to chilling temperature storage by pretreatment with high CO2 levels in Annona cherimola fruit. Journal of Agricultural and Food Chemistry. 52:4758-4763. Manríquez, D., I. El-Sharkawy, F.B. Flores, F. El-Yahyaoui, F. Regad, M. Bouzayen, A. Latché, J.C. Pech. 2006. Two highly divergent alcohol dehydrogenases of melon exhibit fruit ripening-specific expression and distinct biochemical characteristics. Plant Mol. Biol. 61:675-685. Manríquez, D.A., P. Muñoz-Robredo, O. Gudenschwager, P. Robledo, and B.G. Defilippi. 2014. Development of flavor-related metabolites in cherimoya (Annona cherimola Mill.) fruit and their relationship with ripening physiology. Postharvest Biology and Technology. 94:58-65. Martinez, G., M. Serrano, M.T. Pretel, A. Amoros, F. Riquelme, and F. Romoharo. 1993. Ethylene biosynthesis during the ripening of cherimoya (Annona cherimola Mill.). Current Plant Science in Biotechnology and Agriculture. 16:148−149. Martins, D.R. and E.D. Resende. 2013. Quality of Golden papaya stored under controlled atmosphere conditions. Food Science and Technology International. 19:473-481. Mathooko, F.M. 1996. Regulation of ethylene biosynthesis in higher plants by carbon dioxide. Postharvest Biol. Techol. 7:1-26. Mattheis, J. and Fellman, J.K. 2000. Impacts of modified atmosphere packaging and controlled atmospheres on aroma, flavor, and quality of horticultural commodities. HortTechnology. 10:507-510. Morris, L.L. 1982. Chilling injury of horticultural crops: an overview. HortScience 17:161-162. Morton. J.F. 1987.Sugar apple, Fruits of warm climates, Ed, Miami, FL, pp. 69-72 Muñoz, M.T., J. Ruiz-Cabello, A.D. Molina-Garcı́a, M.I. Escribano, and C. Merodio. 2001. Chilling temperature storage changes the inorganic phosphate pool distribution in cherimoya (Annona cherimola Mill.) fruit. J. Amer. Soc. Hort. Sci. 126:122-127. Murata, M., I. Noda, and S. Homma. 1995. Enzymatic browning on the market. Relationship between browning, polyphenol content and polyphenol oxidase. Nippon Shokuhin Kagaku Kogaku Kaishi. 42:820-826. Noichinda, S., K. Bodhipadma, C. Wongs-Aree, and R. Komkhuntod. 2010. Ripening behavior of sugar apple between “Fai” and “Nang” cultivars’. unpublished data. Pal, D. K., and P.S. Kumar. 1995. Changes in the physico-chemical and biochemical composition of custard apple (Annona squamosa L.) fruits during growth, development and ripening. Journal of Horticultural Science. 70:569-572. Palma, T., J.M. Aguilera, and D.W. Stanley. 1993. A review of postharvest events in cherimoya. Postharvest Biology and Technology. 2:187-208. Pascual, L., F. Perfectti, M. Gutierrez, and A.M. Vargas. 1993. Characterizing isozymes of Spanish cherimoya cultivars. HortScience. 28:845-847. Paull, R. E., J. Deputy, and N.J. Chen. 1983. Changes in organic acids, sugars, and headspace volatiles during fruit ripening of soursop (Annona muricata L.). Journal of the American Society for Horticultural Science. 108:931-934. Paull, R.E. 1996. Postharvest atemoya fruit splitting during ripening. Postharvest Biology and Technology. 8:329-334. Paull, R.E. and N.J. Chen. 2014. Atemoya, p. 214-215. In: Gross, K.C., C.Y. Wang, and M. Saltveit (eds.). The commercial storage of fruits, vegetables, and florist and nursery stocks. USDA Agriculture Handbook Number 66 (HB-66). Paull, R.E. and O. Duarte. 2011. Annonas: cherimoya, atemoya and sweetsop, p. 123-152. In: Paull, R.E. and O. Duarte. Tropical fruits Vol. 1 (2nd ed.). CAB International. Oxfordshire, UK. Pesis, E. and R. Marinansky. 1994. Prestorage low-oxygen atmosphere treatment reduces chilling injury symptoms in Fuerte avocado fruit. HortSience. 29:1042-1046. Ploetz, R.C. 2003. Diseases of Atemoya, Cherimoya, Soursop, Sugar Apple and Related Fruit Crops. p. 21-34. In: R.C. Ploetz (ed.). Diseases of Tropical Fruit Crops. CAB International, Cambridge, UK. Raison J.K. 1973. The influence of temperature-induced phase change on kinetics of respiratory and other membrane-associated enzyme. J. Bioenerg. 4:258-309. Raison, J.K. and J.M. Lyons. 1986. Chilling injury—a plea for uniform terminology. Plant Cell Environ. 9:685-686. Reddy, R.S. and A. Rameshwar. 1984. Oxidases of custard apple fruits. Plant Physiol. Biochem. 11:118-125. Reginato, G. 1980. Comportamiento de la chirimoya cn frio (Annona cherirnola Mill.). Tesis Ing. Agr. Santiago, Univ. Chile. Robinson, J.E., K.M. Browne and W.G. Burton. 1975. Storage characteristics of some vegetables and soft fruits. Ann. Appl. Biol. 81:399-408. Salisbury, F.B., and C.W. Ross. 1985. Plant physiology. (Third Edition) Wadsworth Publishing Company Belmont, California. A division of Wadsworth, Inc. 540pp. Saltveit, M.E. 1999. Effect of ethylene on quality of fresh fruits and vegetables. Postharvest Biol Technol. 15:279-292. Sanchez, J. A., J.P. Zamorano, and R. Alique. 1998. Polygalacturonase, cellulose and invertase activities during cherimoya fruit ripening. Journal of Horticultural Science and Biotechnology. 73:87-92. Sanchez, J.A., J.P. Zamorano, T. Hernandez, and R. Alique. 1998. Enzymatic activities related to cherimoya fruit softening and sugar metabolism during short-term. Z Lebensm Unters Forsch 207. 244-248. Sastry, L.V., B.S. Bhatia, and L. Oirdhari. 1961. Custard apple peroxidase. J. Food Sci. 26:244-247. Shen, W.B., C.R. Li, J.Y. Chen, J.H. Xie, and W.J. Lu. 2009. Expansin gene expression in cherimoya fruit is correlated with flesh firmness during fruit ripening and softening. Journal of Horticultural Science and Biotechnology. 84:333-339. Silva, G.M.C., M.H.M. Cordeiro, G.P. Mizobutsi, R.R.S. Sobral, E.H. Mizobutsi, N.M. Silva, F.M. Feitosa, J.C. Martins, and S.N.A. Fonseca. 2016. 1-MCP extends atemoya shelf life. Journal of Food, Agriculture Environment. 14(1):35-39. Singh, N. and D. Lee. 2001. Permanganate: a green and versatile industrial oxidant. Organic Process Research and Development. 5(6):599-603. Sisler, E. C. and Serek, M. 1997. Inhibitors of ethylene responses in plants at the receptors level: recent developments. Physiologia Plantarum, 100, 577-582. Sisler, E.C. and M. Serek. 2003. Compounds interacting with the ethylene receptor in plants. Plant. Biol. 5:473-480. Sivankalyani, V., O. Feygenberg, D. Maorer, M. Zaaroor, E. Fallik, and N. Alkan. 2015. Combined treatments reduce chilling injury and maintain fruit quality in avocado fruit during cold quarantine. PLoS ONE. 10:0140522. Steffens, C.A., C.V. do Amarante, E.O. Alves, and A. Brackmann. 2013. Condições de atmosfera controlada para o armazenamento de ameixas ‘Laetitia’ tratadas com 1-metilciclopropeno. Revista Ciência Agronômica. 44:750-756. Sun, B., H. Yan, N. Liu, J. Wei, and Q. Wang. 2012. Effect of 1-MCP treatment on postharvest quality characters, antioxidants and glucosinolates of Chinese kale. Food Chem. 131:519-526. Sweetman, C., L.G. Deluc, G.R. Cramer, C.M. Ford, and K.L. Soole. 2009. Regulation of malate metabolism in grape berry and other developing fruits. Phytochemistry. 70:1329–1344. Taylor, J. E. 1993. Annona species. p.166-169. In: G.B. Seymour, J.E. Taylor, and G.A. Tucker (eds.). Biochemistry of fruit ripening. Chapman and Hall Press, London, UK. Tian, S. P., B.Q. Li, and Y. Xu. 2005. Effects of O2 and CO2 concentrations on physiology and quality of litchi fruit in storage. Food Chemistry. 91:659-663. Toivonen, P.M.A. and D.A. Brummell. 2008. Biochemical bases of appearance and texture changes in fresh-cut fruit and vegetables. Postharvest Biology and Technology. 48:1-14. Tongdee, S.C., A. Suwanagul, and S. Neamprem. 1990. Durian fruit ripening and the effect of variety, marurity stage at harvest, and atmosphere gases. Acta Hortic. 269:323-334. Vàmos-Vigyazo, L. 1981. Polyphenol oxidase and peroxidase in fruits and vegetables. Critical Rev. Food Sci. and Nutr. 15:49-127. Vishnu Prasanna, K.N., D.V. Sudhakar Rao, and S. Krishnamurthy. 2000. Effect of storage temperature on ripening and quality of custard apple (Annona squamosa L.) fruits. Journal of horticultural science and biotechnology. 75(5):546-550. Vyas, P.B., T.V. Ramana Rao, and V.R. Thakkar. 2015. Combined effects of chemical and physical elicitors on postharvest quality of custard apple (Annona squamosa L., cv. Balanagar). Sci. Hortic. 187:50-57. Watkins, C.B. 2002. Ethylene synthesis, mode of action, consequences and control. p. 180-224. In: M. Knee (ed.). Fruit quality and its biological basis. Sheffield Academic Press, Florida, US. Watkins, C.B. 2006. The use of 1-methylcyclopropene (1-MCP) on fruits and vegetables. Biotechnol. Adv. 24:389-409. Weichmann, J. 1986. The effect of controlled-atmosphere storage on the sensory and nutritional quality of fruits and vegetables. Hortic. Rev. 8:101-127. Whitehead, C.S. and G.H. De Swardt. 1982. Extraction and activity of polyphenoloxidase and peroxidase from senescing leaves of Protea neriifolia. South African J. Bot. 1:127-130. Wills, R.B.H., A. Poi, H. Greenfield, and C.J. Righey. 1984. Postharvest changes in fruit composition of Annona atemoya during ripening and effects of storage temperatures on ripening. HortScience. 19:96-97. Wongs-Aree, Chalermchai Noichinda, Sompoch. 2014. Postharvest Physiology and Quality Maintenance of Tropical Fruits. 10.1016/B978-0-12-408137-6.00010-7. Wu, M.C. and L.M. Tsay. 1998. Activity of softening enzymes during storage of sugar apple (Annona squamosa L.) at different temperatrures. Food Preservation Science. 24:319-323. Wyllie, S.G., D. Cook, J.J. Brophy, and K.M. Richter. 1987. Volatile flavor components of Annona atemoya (custard apple). Journal of Agricultural Food and Chemistry. 35:768-770. McKeon T.A., Yang SF. (1987) Biosynthesis and Metabolism of Ethylene. In: Davies P.J. (eds) Plant Hormones and their Role in Plant Growth and Development. Springer, Dordrecht. Yonemoto, Y., H. Higuchi, and Y. Kitano. 2002. Effects of storage temperature and wax coating on ethylene production, respiration and shelf-life in cherimoya fruit. Journal of the Japanese Society for Horticultural Science. 71:643-650. Zamorano, J.P., R. Alique, and W. Canet. 1999. Mechanical parameters to assess quality changes in cherimoya fruit. Zeitschrift für Lebensmittel-Untersuchung und -Forschung A. 208:125-129. Zhang, X., J. Yazaki, A. Sundaresan, S. Cokus, S. Chan, H. Chen, I. Henderson, P. Shinn, M. Pellegrini, S. Jacobsen, and J.R. Ecker. 2006. Genome-wide high resolution mapping and functional analysis of DNA methyla¬tion in Arabidopsis. Cell. 126:1189-1201. Zhu, Z., R. Liu, B. Li, and S. Tian. 2013. Characterisation of genes encoding key enzymes involved in sugar metabolism of apple fruit in controlled atmosphere storage. Food Chemistry. 141(4):3323-3328.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/20620	-
dc.description.abstract	釋迦(Annona squamosa L.)為番荔枝科熱帶經濟果樹，後熟老化快速(20℃約5天)、高度寒害敏感(<13℃)、病害果腐為其長期貯運的重要障礙，目前主要於國內消費。本試驗以改變大氣組成處理應用於‘大目’釋迦之保鮮及探討延長貯運壽命之效益，並評估回溫後之後熟能力及相關品質。‘大目’釋迦於12℃處理1 μL·L-1 1-MCP，對於呼吸速率及乙烯生成的抑制功效不明顯；反之，相對高溫的20℃處理1-MCP能顯著抑制果實後熟由3天延長至6天。‘大目’釋迦貯藏於15、13、12、11°C，維持綠熟果狀態的天數分別為7-14、14-21、14-21、＞21天，但11°C 貯藏2-3週果皮及鱗目即有褐化寒害徵狀。在13℃貯藏環境，3%氧氣效果最佳，果實回溫後可順利後熟，貯運壽命2-3週；1%氧氣處理貯藏3週以上，果實產生低氧生理障礙造成無法後熟，因此，無氧無吸補償點為1-3%氧氣。低氧高二氧化碳氣調貯藏於12℃保鮮效果類似，經3週貯藏後果實可保持綠熟、無寒害徵狀、回溫後可順利後熟且品質無顯著改變，貯運壽命3-4週。為開發氣調技術於釋迦商業應用技術，進行氣調櫃模擬試驗，‘大目’釋迦於12℃以低氧高二氧化碳氣調貨櫃，可維持綠熟狀態達3-4週，20℃回溫後可順利後熟至可食程度，但後熟期間潛伏性病害是未來須克服的瓶頸。	zh_TW
dc.description.abstract	Fast ripening and senescence (around 5 days at 20℃), extreme chilling sensitivity, (<13℃), and disease breakdown are the major factors that obstacle long-term storage of sugar apple (Annona squamosa L.), a cash crop from Annonaceae; as a consequence, the fruit is almost all consumed domestically in Taiwan. In order to extend postharvest longevity of sugar apples and explore oversea markets, development of practical preservation technologies is urgently needed. The purpose of this research is to investigate the effect of controlled atmosphere (CA) technology on extending the shelf life of sugar apple and then to evaluate the ripening capability and fruit quality after storage. 'Ta-Mu' sugar apples treated with 1 μL·L-1 1-MCP at 12°C showed insignificant effects on the respiration and ethylene production rates. On the other hand, the fruit ripening was markedly inhibited in the case of 1-MCP fumigated fruits at 20℃. The postharvest life of mature-green sugar apples at 15, 13, 12, 11°C were 7-14, 14-21, 14-21, >21 days, respectively. However, fruit stored at 11°C for 2-3 weeks exhibited the peel browning judged as a chilling injury symptom. In a storage environment of 13°C, 3% oxygen treatment displayed the best preservation effect among the treatments tested. The fruit remained at mature green phase for 2-3 weeks and ripened successfully after moving to 20℃. Contrastively, the samples treated with 1% oxygen for more than 3 weeks showed an anaerobic disorder and failed to ripen properly. Treatments of low concentration oxygen + high concentration carbon dioxide at 12℃ for a 3 week-storage exhibited similar preservation results, including maintenance of mature green phase, avoidance of chilling injury, and ripening normally with acceptable quality after CA storage. Then, the CA storage conditions were tested and reconfirmed by a CA container simulation experiment. The results of CA container trial also showed that low concentration oxygen + high concentration carbon dioxide at 12°C effectively retarded the ripening for 3 weeks and suppressed the occurrence of chilling injury symptoms. However, high disease incidence during the ripening period is the bottleneck to be overcome in the future.	en
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dc.description.tableofcontents	口試委員審定書 ii 誌謝 iii 摘要 iv Absract v 第一章前言 1 第二章前人研究 3 2.1 釋迦產業概況 3 2.2 釋迦採後生理及品質變化 5 2.3釋迦採後劣變因子 9 2.4 延長番荔枝屬果實採後貯運壽命之處理技術 15 第三章材料方法 21 3.1 植物材料 21 3.2 貯前1-MCP燻蒸處理 21 3.3 氣調處理 (Controlled Atmosphere, CA) 22 3.4 氣調貨櫃模擬貯運試驗 23 3.5 氧氣、二氧化碳、乙烯濃度測定 24 3.6 呼吸速率測定 24 3.7 乙醛和乙醇濃度測定 25 3.8 果實品質測定 25 第四章結果 28 4.1 處理1-MCP對於‘大目’釋迦之影響 28 4.2 氧氣濃度對於‘大目’釋迦之影響 30 4.3 低氧及高二氧化碳對於‘大目’釋迦之影響 32 4.4 氣調櫃模擬貯運對於‘大目’釋迦品質之影響 33 第五章討論 36 5.1. 處理1-MCP對於‘大目’釋迦之影響 36 5.2. 氧氣濃度對於‘大目’釋迦之影響 37 5.3. 低氧及高二氧化碳對於‘大目’釋迦之影響 39 5.4. 氣調櫃模擬貯運對於‘大目’釋迦品質之影響 41 第六章結論 44 表1. 不同溫度1-MCP處理對‘大目’釋迦果實品質之影響。 46 表2. 低氧對不同溫度‘大目’釋迦果實貯藏品質之影響。 47 表3. 低氧高二氧化碳對不同溫度‘大目’釋迦果實貯藏品質之影響。 49 表4. 第一次氣調櫃模擬貯運試驗對‘大目’釋迦果實貯藏品質之影響。 51 表5. 第二次氣調櫃模擬貯運試驗對‘大目’釋迦果實貯藏品質之影響。 52 參考文獻 68 附錄 85
dc.language.iso	zh-TW
dc.title	氣調技術應用於‘大目’釋迦採後貯運之研究	zh_TW
dc.title	Studies on Application of Controlled Atmosphere for Transportation of Sugar Apples (Annona squamosa L.)	en
dc.type	Thesis
dc.date.schoolyear	109-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	顏昌瑞(Chung-Ruey Yen),李堂察(Tan-Cha Lee)
dc.subject.keyword	釋迦,後熟,氣調貯藏,氣調櫃,	zh_TW
dc.subject.keyword	sugar apple,ripening,controlled atmosphere storage,CA container,	en
dc.relation.page	85
dc.identifier.doi	10.6342/NTU202100718
dc.rights.note	未授權
dc.date.accepted	2021-02-17
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	園藝暨景觀學系	zh_TW
顯示於系所單位：	園藝暨景觀學系

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