- CHILLING INJURY IN TOMATO FRUIT 277
Wang, C.Y., and D.O. Adams. 1980. Ethylene production by chilled cucumbersCucumis
sativusL. Plant Physiol. 66:841–843.
Wang, C.Y., and D.O. Adams. 1982. Chilling-induced ethylene production in cucumbers
Cucumis sativusL. Plant Physiol. 69:424–427.
Wang, C., C. Chin, C. Ho, C. Hwang, J.J. Polashock, and C.E. Martin. 1996. Changes of fatty
acids and fatty acid-derived flavour compounds by expressing the yeastΔ-9 desaturase
gene in tomato. J. Agr. Food Chem. 44:3399–3402.
Wang, Y., W. Lu, Y. Jiang, Y. Luo, W. Jiang, and D. Joyce. 2006. Expression of ethylene-
related expansin genes in cool-stored ripening banana fruit. Plant Sci. 170:962–
967.
Wang, C.Y., C.E. Sama, and K. Gross. 1985. Ethylene, ACC, soluble polyuronide, and cell
wall noncellulosic neutral sugar content in ‘Eldorado’ pears during cold storage and
ripening. J. Am. Soc. Hort. Sci. 110:687–691.
Wang, Y., S. Tian, and Y. Xu. 2005. Effects of high oxygen concentration on pro- and anti-
oxidant enzymes in peach fruit during postharvest periods. Food Chem. 91:99–104.
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. CRC Press, Boca
Raton, FL.
Watkins, C.B., and J.H. Ekman. 2004. Storage technologies: Temperature interactions and
effects on quality of horticultural products. Acta Hort. 682:1527–1534.
Watkins, C.B., S. Picton, and D. Grierson. 1990. Stimulation and inhibition of expression
of ripening-related mRNAs in tomatoes as influenced by chilling temperatures. J. Plant
Physiol. 136:318–323.
Wills, R.B.H., and G.H. Kim. 1995. Effect of ethylene on postharvest life of strawberries.
Postharvest Biol. Technol. 6:249–255.
Wills, R.B.H., W.B. McGlasson, D. Graham, and D.C. Joyce. 2007. Postharvest: An intro-
duction to the physiology and handling of fruit, vegetables and ornamentals (5th ed),
CAB International, Wallingford, Oxon, UK.
Woods, C.M., M.S. Reid, and B.D. Patterson. 1984. Response to chilling stress in plants
cells. I. Changes in cyclosis and cytoplasmic structure. Protoplasma 121:8–16.
Woolf, A.B. 1997. Reduction of chilling injury in stored ‘Hass’ avocado fruit by 38◦C water
treatments. HortScience 32:1247–1251.
Woolf,A.B.,S.Ball,K.J.Spooner,M.LayYee,I.B.Ferguson,C.B.Watkins,A.Gunson,and
S.K. Forbes. 1997. Reduction of chilling injury in the sweet persimmon ‘Fuyu’ during
storage by dry air heat treatments. Postharvest Biol. Technol. 11:155–164.
Yahia, E.M., and J.K. Brecht. 2012. Tomatoes. p. 18–51. In: D. Rees, G. Farrell and J.
Orchard (eds.), Crop post-harvest: Science and technology. Wiley-Blackwell, Oxford,
UK.
Yang, J., M. Fu, Y. Zhao, and L. Mao. 2009. Reduction of chilling injury and ultrastructural
damage in cherry tomato fruits after hot water treatment. Agr. Sci. China 8:304–310.
Yilmaz, E., K.S. Tandon, J.W. Scott, E.A. Baldwin, and R.L. Shewfelt. 2001. Absence of
a clear relationship between lipid pathway enzymes and volatile compounds in fresh
tomatoes. J. Plant Physiol. 158:1111–1116.
Zhang, C., and S. Tian. 2009. Crucial contribution of membrane lipids’ unsaturation to
acquisition of chilling-tolerance in peach fruit stored at 0◦C. Food Chem. 115:405–
411.
Zhao, D.Y., L. Shen, B. Fan, K.L. Liu, M.M. Yu, Y. Zheng, Y. Ding, and J.P. Sheng. 2009.
Physiological and genetic properties of tomato fruits from 2 cultivars differing in chill-
ing tolerance at cold storage. J. Food Sci. 74:348–352.