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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2024年15

Page:

87-96

Research Field:

Publishing date:

Info

Title:

Effects of Different Temperature Fluctuations on the Storage Quality of SHAWO Radish

Author(s):

DING Runsuo1; ZHANG Ling2; LIANG Liya3; JI Xian2; HOU Shuangdi2; ZHU Zhiqiang2; 4

(1.Tianjin Agricultural Development Service Center；2.Institute of Agricultural Products Preservation and Processing Technology，Tianjin Academy of Agricultural Sciences；3.College of Food Science and Bio-engineering，Tianjin Agricultural University；4.National Agricultural Products Preservation Engineering Technology Research Center (Tianjin)/Key Laboratory of Postharvest Physiology and Storage of Agricultural Products，Ministry of Agriculture and Rural Affairs)

Keywords:

SHAWO radish; temperature fluctuation; storage quality; constant temperature storage

PACS:

S 631.1

DOI:

10.11937/bfyy.20240817

Abstract:

Taking fresh SHAWO radish as the test material，five temperature fluctuation methods were used,treatment Ⅰ (6.5 ℃，room temperature fluctuation)，treatment Ⅱ (6.5-16.5 ℃，fluctuation once)，treatment Ⅲ (6.5-11.5 ℃，fluctuation once)，treatment Ⅳ (6.5-11.5 ℃，fluctuation twice)，and treatment Ⅴ (6.5-7.5 ℃，constant temperature box).The effects of different temperature fluctuation methods on the sensory quality，texture，nutrition and other indicators of SHAWO radish during storage were studied，in order to provide reference for the use of temperature control technology for SHAWO radish storage.The results showed that after 20 days of storage，the quality of each treatment of SHAWO radish remained basically good，the flesh hardness and skin brittleness were basically consistent with the initial values，the TSS content decreased slowly，and the chlorophyll content showed an increasing trend.At the end of storage period，the comprehensive evaluation showed that treatment Ⅴ>Ⅰ and Ⅲ>Ⅱ and Ⅳ；when the temperature fluctuation range was large and the temperature fluctuates frequently，the sensory quality and nutritional indicators decrease rapidly.However，constant temperature storage was more effective in inhibiting the loss of water content，the decomposition of TSS and decrease of vitamin C.It could be seen that the range and frequency of temperature fluctuations had a significant impact on the sensory quality and nutritional value of SHAWO radish in the later stage of storage，and constant temperature storage maintained the best quality.

References:

［1］李树光,赵仁顺,闻凤英,等.天津市曙光沙窝萝卜专业合作社,精品沙窝萝卜技术示范及产业开发［Z/OL］.(2016-03-18)［2024-01-01］.http://106.75.223.148:8080/dm8/manage/export.html?language=CHS&uniplatform=NZKPT.［2］苗增香,刘斌,孟俣,等.沙窝水果萝卜的低温贮藏实验研究［J］.冷藏技术,2020,43(2):16,17-21.［3］李宁,王静,刘志杰,等.不同棚室内秋延后种植沙窝萝卜品质鉴定［J］.中国农学通报,2019,35(10):43-46.［4］韩帅,杨润德,高义苗,等.天津市西青区沙窝萝卜生产现状及展望［J］.天津农林科技,2018(6):37-38,41.［5］袁伟玲,崔磊,甘彩霞,等.不同生食萝卜品质指标的评价分析［J］.长江蔬菜,2017(12):27-29.［6］崔磊,袁伟玲,甘彩霞,等.不同品种、湿度、时间对萝卜贮藏的影响［J］.湖北农业科学,2016,55(21):5605-5607.［7］DULAL C,SOO L J,JIN C H,et al.Effects of packaging on shelf life and postharvest qualities of radish roots during storage at low temperature for an extended period［J］.Journal of Food Quality,2018,18:1-12.［8］吴海清,甄润英,何新益,等.对比PE膜与微孔膜对冷藏青萝卜品质的影响［J］.食品与机械,2016,32(3):127-130,136.［9］张平,李志文,王莉,等.基于穿刺测试的沙窝萝卜质构特性分析［J］.食品研究与开发,2012,33(10):196-199.［10］李军.钼蓝比色法测定还原型维生素C［J］.食品科学,2000,21(8):42-45.［11］中华人民共和国农业部.水果和蔬菜可溶性固形物含量的测定 折射仪法:NY/T 2637-2014［S］.北京:中国农业出版社,2015.［12］陈发河,张美姿,吴光斌.NO处理延缓采后枇杷果实木质化劣变及其与能量代谢的关系［J］.中国农业科学,2014,47(12):2425-2434.［13］TSOUVALTZIS P,BRECHT J K.Changes in quality and antioxidant enzyme activities of bunched and topped radish (Raphanus sativus L.) plants during storage at 5 or 10 degrees C［J］.Journal of Food Quality,2014,37(3):157-167.［14］HUANG Y,CUI L,CHEN W,et al.Comprehensive analysis of NAC transcription factors and their expressions during taproot coloration in radish (Raphanus sativus L.)［J］.Scientia Horticulturae,2022,299:111047.［15］李寿田,龚义勤,周健民,等.萝卜贮藏期间木质素含量变化与糠心的关系［J］.园艺学报,2001,28(6):562-564.［16］AMBAW A,BESSEMANS N,GRUYTERS W,et al.Analysis of the spatiotemporal temperature fluctuations inside an apple cool store in response to energy use concerns［J］.International Journal of Refrigeration,2016,66:156-168.［17］朱志强,张平,高凯,等.鲜食葡萄贮运环境温控装置精准应用［C］//第六届全国现代果业标准化示范区创建暨果树优质高效生产技术交流会论文汇编.成都,2017.［18］熊金梁,陈爱强,刘婧,等.温度波动对猕猴桃在4 ℃下货架贮藏品质的影响［J］.包装工程,2021,42(19):69-76.［19］田津津,张秋梅,张哲,等.冷藏运输过程中温度波动对猕猴桃品质的影响［J］.海南师范大学学报(自然科学版),2019,32(4):381-389.［20］辛颖,张元薇,金郑阳,等.温度波动对不同品种樱桃品质劣变的影响［J］.河南工业大学学报(自然科学版),2019,40(2):27-33.［21］胡云峰,杜威,魏增宇.温度波动对蒜薹贮藏品质的影响［J］.食品研究与开发,2018,39(16):185-189.［22］赵芸,郑钟泽,胡云峰,等.温度波动对平菇净菜品质的影响［J］.农学学报,2018,8(4):56-60.［23］李媛.温度波动对石榴贮藏效果的影响［J］.保鲜与加工,2018,18(2):15-18.［24］张瑞,张新,李喜宏,等.温度波动对灵武长枣贮藏品质的影响［J］.食品研究与开发,2017,38(24):199-203.［25］刘佳,乔丽萍,李喜宏,等.温度波动对黄瓜贮藏冷害及品质影响［J］.食品工业,2017,38(4):52-54.［26］张洁,刘震远,李悦明,等.鲜切苹果货架品质对温度波动响应规律研究［J］.食品科技,2019,44(10):44-49.［27］韩敏,张文娟,刘丽,等.贮藏温度对潍县萝卜肉质根抗氧化能力的影响［J］.西北农林科技大学学报(自然科学版),2021,49(8):91-100.［28］LOCKLEY R A,BEACHAM A M,GROVE I G,et al.Postharvest temperature and water status influence postharvest splitting susceptibility in summer radish (Raphanus sativus L.)［J］.Journal of the Science of Food and Agriculture,2021,101(2):536-541.［29］韩敏,李媛媛.常温贮藏期间潍县萝卜肉质根糠心指数与营养成分的变化规律及其相关性研究［J］.上海交通大学学报(农业科学版),2019,37(5):89-94.

Memo

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Common functions

Last Update: 2024-08-23