1 Brinson K, Dey P M, Pridham J B. Postharvest changes in Mangifera indica mesocarp cell walls and cytoplasmic polysaccharides.Phytochemistry,1988,27(3):719~723
2 周玉蝉,唐友林,谭兴杰.紫花芒果后熟过程中主要类胡萝卜素含量的变化.亚热带热带植物学报,1994,2(2):77~79
3 蒋跃明,李月标,张东林,等.“紫花”和“桂香”芒果后熟过程中色泽转化的研究.园艺学报,1997,24(4):388~390
4 邹日娥.芒果采后生理生化的变化.福建果树,1995,(2):9~12
5 Tucker G, Seymour G. Cell wall degradation during mango fruit ripening. Acta Hortic,1991,291:454~460
6 Mitcham E, McDonald R. Cell wall modification during ripening of ‘Keitt’ and ‘Tommy Atkins’ mango fruit. J. Amer. Sot. Hort. Sci, 1992, 117:919~924
7 Roe B, Bruemner J. Changes in pectic substances and enzymes during ripening and storage of ‘Keitt’ mango. J. Food. Sri, 1981, 46:186~189
8 Selvaraj Y, Kumar R. Studies on fruit softening enzymes and polyphenol oxidase activity in ripening mango fruit. J. Food Sci. Technol. (India), 1989,26:218~222
9 Murthy S K. Chemical studies on internal breakdown in Alphonso mango. J. Hort. Sci, 1981:56: 247~250
10 Ashraf M, Kahn N, Ahmed M, et al. Studies on the pectinesterase activity and some chemical constituents of some Pakistani mango varieties during storage ripening. J. Agric. Food Chem,1981,29:526~528
11 El-Zoghbi M. Biochemical changes in some tropical fruits during ripening. Food Chemistry, 1994, 49(1):33~37
12 陈志宏,张如莲,陈红梅.海南秋芒采后贮藏期间的生理变化(简报).植物生理学通讯,1998,34(3):178~181
13 赵玉梅,冯双庆,乔勇进.象牙芒果在贮藏过程中果胶及相关酶活性的变化.保鲜与加工,2004,4(2):18~20
14 唐友林,周玉蝉,潘小平.采后芒果的后熟软化与贮藏淀粉变化之间的关系.亚热带植物通讯,1997,26(2):40~44
15 Gomez-Lim M A. Postharvest physiology. In: Litz, R.E. (Ed.), The Mango: Botany, Production and Uses. CAB International, Wallingford, UK, 1997,425~445
16 Herianus J D. Lalel Zora Singh, Soon Chye Tan .Glycosidically-bound aroma volatile compounds in the skin and pulp of ‘Kensington Pride’ mango fruit at different stages of maturity, Postharvest Biology and Technology, 2003,29:205~218
17 Winterhalter, In: Maarse H. (Ed.), Volatile Compounds in Foods and Beverages. P. Fruit IV. New York, USA,1991,389~409
18 Herianus J D. Lalel, Zora Singh, Soon Chye Tan. Aroma volatiles production during fruit ripening of ‘Kensington Pride’ mango. Postharvest Biology and Technology, 2003, 27: 323~336
19 李安妮,朱慧英,邓义才.芒果采后生理研究.热带亚热带植物学报,1994,2(1):64~69
20 邓义才.紫花芒果实生理特性与保鲜技术研究.中国果品研究,1996,(3):9~11
21 蔡於麒,何和明.芒果生长发育过程中若干生理参数的变化.中国野生植物资源,2000,19(5):56~58
22 王建华,刘鸿先,徐同.超氧化物歧化酶(SOD)在植物逆境和衰老生理中的作用.植物生理学通讯,1989,(1):1~7
23Fridovich I. In: Pryor W A ed. Free Radical Biology. New York :Academic Press, 1976.239
24 石海燕,冯双庆.气调贮藏对“紫花”芒果SOD、POX、CAT等酶活性的影响.中国农业大学学报,1998,3(3):72~76
25 王燕,李雪萍,季作梁.芒果冷害对两种自由基清除剂的影响.园艺学报,1995,22(3):235~239
26 潘秋红,蔡世英,周倩苹.Ca2+对芒果果实后熟效应的研究.热带作物学报,2000,21(3):21~27
27 Medlicott A P, Jeger M J. The development and application of postharvest treatments to manipulate ripening in mangoes. In: Prinsely R T and Tucker G (Editors), Mangoes: a Review. Commonwealth Science Council, London, 1987.56~77
28 Chaplin G R, Cole S P, Landrigan M, et al. Chilling injury and storage of mango (Mangijera indica L.) fruit held under low temperatures. Acta Hort, 1991, 291: 461~471
29 Lizada M C. Postharvest of the mango: a review. Acta Hort, 1991, 291: 437~453
30 Chhaptar H S, Mattoo A K, Modi V V. Biochemtcal studies on chilling injury m mangoes. Phytochemistry, 1971, 10: 1007~1009
31 Zauberman G, Fuchs Y, Rot I, et al. Chilling injury, peroxidase and cellulase activities in peel of mango fruit at low temperature. HortScience, 1988, 23: 732~733
32 Ildo E. Lederman, Giora Zauberman, et al. Ethylene-forming capacity during cold storage and chilling injury development in ‘Keitt’ mango fruit Postharvest Biology and Technology, 1997 ,10:107~112
33 季作梁,张昭其,王燕,等.芒果低温贮藏及其冷害的研究.园艺学报,1994,21(2):111~116
34 季作梁,戴宏芬,张昭其.芒果果实冷害过程中谷胱甘肽和抗坏血酸含量的变化.园艺学报,1998,25(4):324~328
35 季作梁,洪汉军,张昭其,等.多胺与芒果贮藏冷害的研究.热带作物学报,1998,19(3):28~32
36 张昭其,洪汉君,李雪萍,等.间隙升温处理对芒果内源多胺和ACC含量的影响.华南农业大学学报,1997,18(3):77~80
37 张昭其,洪汉君,李雪萍,等.间歇升温对芒果冷害及生理生化反应的影响.园艺学报,1997,24(4):329~332
38 张昭其,李雪萍,洪汉君,等.外源腐胺减轻芒果冷害的研究.福建农业学报,2000,15(2):32~36
39 李雪萍,张昭其,戴宏芬,等.低温锻炼对冷藏芒果膜脂过氧化作用的影响.华南农业大学学报,2000,21(4):15~17
40 张维一,毕阳.果蔬采后病害与控制.北京:中国农业出版社,1996.27
41 Droby S, Prusky D, Jacoby B, et al. Induction of antifungal resorcinols in flesh of unripe mango fruits and its relation to latent infection by Alternaria alternate .Physiological and Molecular Plant Pathology, 1987, 30(2):285~292
42 Patil R K, Pathak V N. Efect on fruit ripeness in relation to synthesis andactivity of cell wall degrading enzymes of mango rot pathogens. Indian J.Mycol.Plant Patrol, 1994,24(2):156~157
43 Chandra J, Pathak V N. Study on the stem end rot (Diplodina natalensis Pole Evans)disease of post harvest mango(Mangiferae indica)fruit . Indian J.Mycol.Plant Patrol, 1989,19 (1):37~43
44 Prasad S S, Sinha A K, Hasija S K, et al. In vivo and in vitro production of pectolyticenzymes by Botryodiplodia theobromae and Macrophoma mangiferae ,causing soft rot of mango. Perspectives In Mycological Research, 1987,1:101~109
45 Chile S K. Oxidative metabolism under Botryodiplodia fruit rot pathogenesis. Indian J .Mycol. Plant Patrol, 1984, 14(2):138~142
46 龚国强,陈雨新,周山涛.芒果常温贮藏保鲜技术的研究.中国农业科学,1994,27(3):82~88
47Ketsa S, Chidtragool S, Kleinc J D, et al. Ethylene synthesis in mango fruit following heat treatment Postharvest Biology and Technology, 1999,15:65~72
48 朱世江,季作梁,张昭其,等.热处理提高采后芒果抗冷性与蛋白质含量变化的关系.园艺学报,2003,30(2):198~200
49 朱世江,季作梁.热处理提高芒果抗冷性与内源ABA的关系.中国农业科学,2002,35(9):1150~1153
50 Keryl K. Jacobi, Janet E. et al .Quality of ‘Kensington’ mango (Mangifera indica Linn.) fruit following combined vapour heat disinfestation and hot water disease control treatments .Postharvest Biology and Technology,1997, 12:285~292
51 Elizabeth J. Mitcham. Roy E. et al. Respiration rate, internal atmosphere, and ethanol and acetaldehyde accumulation in heat-treated mango fruit. Postharvest Biology and Technology, 1993,3(1):77~86
52 施瑞城,张熙新,蔡汉海.柠檬酸处理对芒果采后生理活动的影响.植物生理学报,2000,26(2):130~132
53 姚宏霖,叶齐政,李胜利,等.电磁环境对采后芒果的生理影响.应用与环境生物学报,2000,6(1):33~35
54 Jeremy Burdon, Sasson Dori, Rosita Marinansky, et al. Acetaldehyde inhibition of ethylene biosynthesis in mango fruit. Postharvest Biology and Technology, 1996,8:153~161
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