Controlling Fusarium oxysporum Tomato Fruit Rot under Tropical Condition Using Both Chitosan and Vanillin

Z. Safari, P. Ding, J. Nakasha, S. F. Yusoff
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引用次数: 17

Abstract

Tomato Lycopersicon esculentum Mill. is one of the most cultivated and widely consumed vegetables in the world. However, it is very susceptible to the infection initiated by Fusariumoxysporum fruit rot, which shortens post-harvest life and thus reduces market value. This disease can be regulated appropriately by the application of synthetic fungicides. However, chemical fungicides constitute a serious health risk, and have harmful environment effects and increase disease resistance, even when microbes are dead. Hence, to overcome this problem, chitosan and vanillin, which have antimicrobial bioactive properties against the growth of microorganisms, could be an alternative to disease control, while maintaining fruit quality and prolonging shelf life. The aim of this research was to evaluate the antimicrobial activity of chitosan and vanillin towards the inoculate pathogen and to investigate the effect of chitosan and vanillin coating in vivo on Fusarium oxysporum fruit rot and defense-related enzymes (PAL, PPO and POD). Chitosan and vanillin in aqueous solutions, i.e., 0.5% chitosan + 10 mM vanillin, 1% chitosan + 10 mM vanillin, 1.5% chitosan + 10 mM vanillin, 0.5% chitosan + 15 mM vanillin, 1% chitosan + 15 mM vanillin and 1.5% chitosan + 15 mM vanillin, were used as edible coatings on tomatoes stored at 26 ± 2 °C and 60 ± 5 relative humidity. The result revealed 1.5% chitosan + 15 mM vanillin was able to control disease incidence by 70.84% and severity by 70%. These combinations of coatings were also able to retain phenylalanine ammonia-lyase (PAL), peroxidase activity (POD), and polyphenol oxidase (PPO) enzyme activities as well as prolong shelf life of tomatoes up to 15 days.
壳聚糖和香兰素共同防治热带条件下番茄尖孢镰刀菌果腐病
番茄。是世界上种植最多、消费最广泛的蔬菜之一。然而,它很容易受到镰刀菌果腐菌的感染,这缩短了采后寿命,从而降低了市场价值。这种疾病可通过应用合成杀菌剂加以适当控制。然而,化学杀菌剂构成严重的健康风险,具有有害的环境影响,并增加抗病能力,即使在微生物死亡的情况下也是如此。因此,为了克服这一问题,壳聚糖和香兰素具有抗微生物的生物活性,可以作为控制疾病的替代方法,同时保持水果的品质和延长保质期。本研究旨在评价壳聚糖和香兰素对接种病原菌的抑菌活性,并研究壳聚糖和香兰素包衣对尖孢镰刀菌果实腐烂及防御相关酶(PAL、PPO和POD)的影响。采用0.5%壳聚糖+ 10mm香兰素、1%壳聚糖+ 10mm香兰素、1.5%壳聚糖+ 10mm香兰素、0.5%壳聚糖+ 15mm香兰素、1%壳聚糖+ 15mm香兰素和1.5%壳聚糖+ 15mm香兰素的水溶液,在26±2℃、60±5相对湿度条件下对番茄进行涂膜处理。结果表明,1.5%壳聚糖+ 15 mM香兰素可使发病率降低70.84%,使病情严重程度降低70%。这些涂层组合还能够保持苯丙氨酸解氨酶(PAL)、过氧化物酶(POD)和多酚氧化酶(PPO)酶的活性,并将番茄的保质期延长至15天。
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