Effects of short-term N-2 treatment on quality and antioxidant ability of loquat fruit during cold storage

文献类型: 外文期刊

第一作者: Gao, Haiyan

作者: Gao, Haiyan;Zheng, Yonghua;Gao, Haiyan;Tao, Fei;Song, Lili;Chen, Hangjun;Chen, Wenxuan;Zhou, Yongjun;Mao, Jinlin

作者机构:

关键词: fruit quality;storage life;cold storage effect;loquat fruit: fruit;postharvest distribution;loquat fruit antioxidant capacity;fruit decay rate

期刊名称:JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE ( 影响因子:3.638; 五年影响因子:3.802 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: BACKGROUND: Loquat fruit is susceptible to microbial decay and quality deterioration during postharvest distribution. In this study, in a search for effective alternatives to methods currently used for quality maintenance, the effects of short-term pre-storage N-2 treatment on the quality and antioxidant ability of loquat fruit were investigated.RESULTS: Loquat fruits were exposed to 100% N-2 for 6 hat 20 degrees C and then stored at 5 degrees C for 35 days. Short-term N-2 treatment significantly delayed the increase in fruit decay rate and decreases in total soluble solid and titratable acidity contents, thereby maintaining better eating quality and extending the storage life of fruits. It also markedly delayed increases in membrane permeability, malondialdehyde content and superoxide anion production rate. In addition, N-2-treated fruits exhibited significantly higher superoxide dismutase and catalase activities and lower lipoxygenase activity than control fruits.CONCLUSION: Short-term pre-storage N-2 treatment effectively reduced fruit decay and maintained quality in loquat fruits during cold storage. The reduction in fruit decay and quality deterioration by the treatment was correlated with enhanced antioxidant ability and reduced lipid peroxidation. (C) 2009 Society of Chemical Industry

分类号: S

  • 相关文献

[1]Effects of heat treatment on internal browning and membrane fatty acid in loquat fruit in response to chilling stress. Rui, Huaijing,Shang, Haitao,Jin, Peng,Wang, Kaituo,Zheng, Yonghua,Cao, Shifeng.

[2]Enhancement of Efficacy in Controlling Postharvest Decays and Extending Shelf Life of Mangoes by Combined Pre- and Postharvest Chemical Applications. Zhu, Guining,Qin, Liping,Huang, Fuxin,Yan, Weihong,Cen, Zhenlu,Fu, Gang,Hu, Chunjin,Zhou, Xiangyang,Li, Quanfu,Huang, Huinian. 2012

[3]Effects of Bagging on the Quality of Pear Fruit and Pesticide Residues. Lin, Jing,Chang, Youhong,Yan, Zhimei,Li, Xiaogang. 2008

[4]Hexose Characteristics of Peach Fruit and Leaves. Wu, B.,Yang, J.,Wang, Y.,Niu, J.,Li, S.,Zhao, J.. 2011

[5]Comparative transcriptome and proteome profiling of two Citrus sinensis cultivars during fruit development and ripening. Liu, Jian-jun,Chen, Ke-ling,Li, Hong-wen,He, Jian,Guan, Bin,He, Li,Wang, Jian-hui,Liu, Jian-jun,Chen, Ke-ling,Li, Hong-wen,He, Jian,Guan, Bin,He, Li,Wang, Jian-hui,Liu, Jian-jun,Chen, Ke-ling,Li, Hong-wen,He, Jian,Guan, Bin,He, Li. 2017

[6]Maternal inheritance of sugars and acids in peach (P. persica (L.) Batsch) fruit. Wu, B. H.,Chen, J.,Xi, H. F.,Zhao, J. B.,Jiang, Q.,Chen, J.,Xi, H. F.,Li, S. H.. 2012

[7]Profiling Taste and Aroma Compound Metabolism during Apricot Fruit Development and Ripening. Xi, Wanpeng,Zheng, Huiwen,Zhang, Qiuyun,Xi, Wanpeng,Li, Wenhui. 2016

[8]Ca(NO3)(2) canopy spraying during physiological fruit drop period has a better influence on the tree character and fruit quality of Newhall navel orange (Citrus sinensis Osbeck). Zheng Yong-qiang,Yang Qiong,Jia Xue-mei,He Shan-ian,Deng Lie,Xie Rang-jin,Yi Shi-lai,Lu Qiang,Liu Yan-mei. 2017

[9]Effect of different potassium levels on growth and quality in two melon cultivars and two growing-seasons. Tang, Mi,Zhao, Hongfei,Li, Qiyou,Shi, Xianfeng,Sun, Yuhong,Bie, Zhilong,Xie, Junjun,Yi, Hongping. 2012

[10]Combined effects of 1-MCP and MAP on the fruit quality of pear (Pyrus bretschneideri Reld cv. Laiyang) during cold storage. Li, Fujun,Guan, Junfeng,Li, Fujun,Zhang, Xinhua,Song, Baicheng,Li, Jiazheng,Shang, Zhonglin,Guan, Junfeng. 2013

[11]Commentary on Application of Data Mining in Fruit Quality Evaluation. Hou, Jinjian,Pan, Ligang,Hou, Jinjian,Wang, Dong,Jia, Wenshen,Pan, Ligang,Wang, Dong,Jia, Wenshen,Pan, Ligang. 2016

[12]Threshold of Soil Olsen-P in Greenhouses for Tomatoes and Cucumbers. Wu, Xue-Ping,Wu, Hui-Jun,Wang, Xiao-Bin,Li, Yin-Kun,Zhang, Yan-Cai,Li, Ruo-Nan,Wang, Li-Ying,Zhai, Cai-Xia,Chen, Li-Li,Wu, Xue-Ping,Wu, Hui-Jun,Wang, Xiao-Bin.

[13]Flowering and Fruiting of Day-neutral and Ever-bearing Strawberry Cultivars in High-elevation for Summer and Autumn Fruit Production in Korea. Ruan, Jiwei,Lee, Young Hun,Yeoung, Young Rog.

[14]Effects of exogenous 24-epibrassinolide treatment on postharvest quality and resistance of Satsuma mandarin (Citrus unshiu). Zhu, Feng,Yun, Ze,Ma, Qiaoli,Gong, Qi,Zeng, Yunliu,Xu, Juan,Cheng, Yunjiang,Deng, Xiuxin,Yun, Ze,Gong, Qi.

[15]Effects of Different Stocks on the Development and Fruit Quality of Hami Melon. Huang, Q. W.,Kong, X. Y.,Luo, F.,Wang, S.,Wan, S. L.,Lin, D. P..

[16]'Ningyu': a New Cultivar with High Reducing Sugar, Ascorbic Acid and Antioxidant Capacity. Wang, J.,Zhao, M. Z.,Wang, Z. W.,Yu, H. M.,Huang, W. Y..

[17]Effect of different light transmittance paper bags on fruit quality and antioxidant capacity in loquat. Xu, Hong-xia,Chen, Jun-wei,Xie, Ming.

[18]Hyperspectral classification for identifying decayed oranges infected by fungi. Yin, Shiyang,Gu, Xiaomin,Xiao, Yong,Bi, Xiaoqing,Niu, Yong. 2017

[19]Exogenous gibberellic acid increases the fruit weight of 'Comte de Paris' pineapple by enlarging flesh cells without negative effects on fruit quality. Li, Yun-He,Zou, Ming-Hong,Zhang, Zhi,Sun, Guang-Ming,Li, Yun-He,Sun, Guang-Ming,Wu, Yong-Jie,Wu, Bei.

[20]Over-expression of GhDWF4 gene improved tomato fruit quality and accelerated fruit ripening. Ye Shu-e,Li Fang,Li Xian-bi,Zhai Yun-lan,Hu Ming-yu,Wei Ting,Deng Sha-sha,Pei Yan,Luo Ming,Hong Qi-bin. 2015

作者其他论文 更多>>

微信小程序