The main problem of Banana fruit cv ‘Khai’ after harvest is senescent spotting which is unacceptable by consumers. This research was to study treatment of ethanol for reducing senescent spotting of ‘kluai khai’ banana fruit. The studied treatments were ethanol at the concentrations 0 (control), 200, 500 and 1,000 ppm in reducing senescent spotting level of ‘kluai khai’ banana stored at 13oC. The result showed that ‘Kluai khai’ banana treated with 500 ppm ethanol vapour gave significantly better result in reducing respiration rate, ethylene production rate and senescent spotting level than other treatments. Moreover, ‘Kluai khai’ banana treated with 500 ppm ethanol vapour gave results in PPO, POD and PAL activity less than other treatments. The ‘Kluai khai’ banana treated with 500 ppm ethanol vapour could maintain peel structure with no significant difference from that at day 0. The ‘Kluai khai’ banana treated with various concentration ethanol solutions was not properly used to reducing senescent spotting level. In conclusion, ‘Kluai Khai’ Banana treated with 500 ppm ethanol vapour was able to extend its storage life by reducing senescent spotting level at least 18 days.

Ethanol, Kluai Khai, Senescent Spotting

จําลอง เจตนะจิตร. สงกลวยไขไปขายท่ีญ่ีปุน. กสิกร. 2534; 64: 336–338.

Berger RG. and Drawert F. Changes in the composition of volatiles by post- harvest application of alcohols to Red Delicious apples. J. Sci. Food Agric. 1984; 35:1318-1325.

Zhang WS, Li X, Wang XX, Wang GY, Zheng JT, Abeysinghe DC, Ferguson IB. and Chen KS. Ethanol vapour treatment alleviates postharvest decay and maintains fruit quality in Chinese bayberry. Postharvest Biol. Technol. 2007; 46:195-198.

Kato K. Astringency removal and ripening in persimmons treated with ethanol and ethylene. HortScience 1990; 25:205-207.

Esguerra EB, Kawada K., Kitagawa H. and Subhadrabandhu S. Removal of astringency in ‘Amas’ banana (Musa AA group) with postharvest ethanol treatment. Acta Hortic. 1993; 321:811-820.

Saltveit ME. and Sharaf AR. Ethanol inhibits ripening of tomato fruit harvested at various degrees of ripeness without affecting subsequent quality. J. Am. Soc. Hort. Sci. 1992; 117: 793-798.

Yuen CM, Paton JE, Hanawati R. and Shen LQ. Effects of ethanol, acetaldehyde and ethyl formate vapour on the growth of Penicilium italicum and P. digitatum on oranges. J. Hort. Sci. 1995; 70:81-84.

Margosan DA, Smilanick JL, Simmons GF. and Delmer JH. Combination of hot water and ethanol to control postharvest decay of peaches and nectarines. Plant Dis. 1997; 81: 1405- 1409.

Zhang WS. Li X. Wang XX. Wang GY. Zheng JT. Abeysinghe DC. Ferguson IB. and Chen KS. Ethanol vapour treatment alleviates postharvest decay and maintains fruit quality in Chinese bayberry. Postharvest Biol. Technol. 2007; 46(2):195-198.

Wang K. Cao S. Di Y. Liao Y. and Zheng Y. Effect of ethanol treatment on disease resistance against anthracnose rot in postharvest loquat fruit. Sci. Hort. 2015; 188:155-121.

Yan S. Luo Y. Zhou B. and Ingram DT. Dual effectiveness of ascorbic acid and ethanol combined treatment to inhibit browning and inactivate pathogens on fresh-cut apples. LWT-Food Sci. Technol. 2017; 80: 311-320.

Homaida MA. Yan S. and Yang H. Effects of ethanol on inhibiting fresh-cut sugarcane enzymatic browning and microbial growth. LWT-Food Sci. Technol. 2017; 77:8-14.

Rohitha BH, McDonald RM, Hill RA. and Karl AK. A preliminary evaluation of some naturally occurring volatiles on codling moth eggs. Proceedings of 46th New Zealand Plant Protection Conference, 1993; 197-199.

Tebbets JS, Vail PV. and Margosan D. Effect of water at 50oC or 5% ethanol at 50oC on the development of codling moth eggs in the laboratory. Arthropod Manage. 1993; 19:373.

Jamieson LE. Meier X. Smith KJ. Lewthwaite SE. and Dentener PR. Effect of ethanol vapour treatment on lightbrown apple moth larval mortality and ‘Bareburn’ apple fruit characterization. Postharvest Biol. Technol. 2003; 28(3):391-403.

A.O.A.C. Official Method of Analysis. Association of Official Analytical Chemist, Inc., Virginia. 1990.

Yingsanga P, Srilaong V, Kanlayanarat S, Noichinda S. and McGlasson WB. Relationship between browning and related enzymes (PAL, PPO and POD) in rambutan fruit (Nephellium lappaceum Linn.) cvs. Rongrien and See-Chompoo. Postharvest Biol. Technol. 2008; 50:164- 168.

DuanX,SuX,YouY,QuH,LiY.and Jiang Y. Effect of nitric oxide on pericarp browning of harvested longan fruit in relation to phenolic metabolism. Food Chem. 2007; 104:571-576.

Saltveit ME. and Sharaf AR. Ethanol inhibits ripening of tomato fruit harvested at various degrees of ripeness without affecting subsequent quality. J. Am. Soc. Hort. Sci. 1992; 117: 793-798.

Zhang WS, Li X, Wang XX, Wang GY, Zheng JT, Abeysinghe DC, Ferguson IB. and Chen KS. Ethanol vapour treatment alleviates postharvest decay and maintains fruit quality in Chinese bayberry. Postharvest Biol. Technol. 2007; 46:195-198.

Berger RG. and Drawert F. Changes in the composition of volatiles by post- harvest application of alcohols to Red Delicious apples. J. Sci. Food Agric. 1984; 35:1318-1325.