甜樱桃呼吸特性及发酵阈值研究
摘要: 探明不同温度下密封盒内甜樱桃的呼吸特性和发酵阈值。以‘艳阳’樱桃为试材,采用密闭系统法,研究了不同温度(0、5和20℃)条件下,樱桃包装环境内的气体浓度变化和樱桃的呼吸速率,拟合呼吸速率方程,研究樱桃的发酵阈值。结果表明,密封盒内樱桃的米氏模型参数拟合度较高,各方程决定系数(R2)值均在0.96以上。在0、5和20℃环境下,樱桃果实的最大呼吸速率分别为4.50、7.14和24.39 m L CO2/(kg·h),最长贮藏时间分别为156、108和24 h,0℃和5℃环境下的发酵阈值比20℃环境低。综上所述,各温度下密封盒内樱桃的米氏模型参数拟合度较高,低温可以有效地抑制果实的呼吸强度,延长贮藏期。
Abstract: The objective of the study was to clarify the respiration properties and fermentive threshold of sweet cherry during storage in different temperature. The changes of gas concentration in sealed box and respiration rate of Prunus avium L. cv.Sunburst in different temperature of 0,5 ℃ and 20 ℃ by enclosed system method were studied.And respiration rate equation of sweet cherry in sealed box was fitted.At the same time,fermentive threshold was determined.Results indicated that fitting degree of Michaelis- Menten model parameters of sweet cherry in sealed box were higher that coefficient of determination( R~2) were more than 0.96.Maximum respiration rate of sweet cherry was 4.50 m L CO_2/( kg·h),7.14 m L CO_2/( kg·h) and 24.39 m L CO_2/( kg·h),and maximum storage time was 156 h,108 h and 24 h respectively in different temperature of 0,5,20 ℃. The fermentive threshold of sweet cherry in 0 ℃ and 5 ℃ were lower than 20 ℃. In conclusion,Michaelis- Menten model parameters of sweet cherry in sealed box had higher fitting degree in different temperature.The lower temperature could inhibit respiration intensity and extend the storage period effectively.
[1] 施俊凤,薛梦琳,王春生,等.甜樱桃采后生理特性与保鲜技术的研究现状与进展[J].保鲜与加工,2009(6):7-10. [2]Pasquariello M S,Patre D D,Mastrobuoni F,et al.Influence of postharvest chitosan treatment on enzymatic browning and antioxidant enzyme activity in sweet cherry fruit[M].Postharvest Biology and Technology,2015,109:45-56.
[3]Chockchaisawasdee S,Golding J B,Vuong Q V,et al.Sweet cherry:Composition,postharvest preservation,processing and trends for its future use[J].Trends in Food Science&Technology,2016,55:72-83.
[4]Colgecen I,Aday M S.The efficacy of the combined use of chlorine dioxide and passive modified atmosphere packaging on sweet cherry quality[J].Posthavest Biology and Technology,2015,109:10-19.
[5] 姜齐永,尤艳莉,周志才,等.自发气调保鲜“红灯”樱桃及数学模型的建立[J].食品研究与开发,2014,35(17):119-121. [6] 王宝刚,李文生,冯晓元,等.气调箱贮藏甜樱桃品质变化研究[J].中国农学通报,2011,27(30):253-257. [7] 王宝刚,李文生,侯玉茹,等.甜樱桃物流及气调箱贮藏期间的品质变化[J].果树学报,2014,31(5):953-958. [8] 王宝刚,侯玉茹,李文生,等.自动自发气调箱贮藏对甜樱桃品质及抗氧化酶的影响[J].农业机械学报,2013,44(1):137-141. [9] 徐绍虎,崔爽.水果气调包装内环境影响因素分析[J].包装工程,2008,29(4):68-69. [10] 谢晶,刘晓丹.利用酶动力学拟合在密闭条件下香菇呼吸速率方程及米氏方程[J].中国食品学报,2006,6(1):96-100. [11] 张桂.果树采后呼吸强度的测定方法[J].理化检验-化学分册,2005,41(8):596-597. [12]Lee D S,Hagar P E,Lee J.Model for fresh produce respiration modified atmospheres based on principles of enzyme kinetics[J].Journal of Food Science,1991,56(6):1580-1585.
[13]Petracek P D,Joles D W,Shirazi A,et al.Modified atmosphere packaging of sweet cherry(Prunus avium L,ev.‘Sams’)fruit:metabolic responses to oxygen carbon dioxide,and temperature[J].Postharvest Biology and Technology,2002,24:259-270.
[14] 万森,李喜宏,薛婷,等.温度对菠菜呼吸特性的影响[J].农业机械,2012(12):133-136. [15] 段华伟,王志伟,胡长鹰,等.气调环境和温度对荔枝呼吸特性的影响[J].食品与生物技术学报,2010,29(5):676-680. [16]Valle-Guadarrama S,Saucedo-Veloz C,Pena-Valdivia C B,et al.Aerobic-anaerobic metabolic transition in Hass’avocado fruits[J].Food Science and Technology International,2004,10(6):391-398.
相关知识
甜樱桃生物学特性——花
甜樱桃土肥水管理及病虫害防治
甜樱桃设施栽培环境要求及调控技术
甜樱桃优良品种早生凡的选育
中国樱桃不同品种开花生物学特性及花粉萌发研究
早熟甜樱桃新品种——岱红
甜樱桃胚珠、花粉发育与温度变化的关系
中国樱桃“对樱桃”试管苗移栽影响因子研究
交大甜樱桃科研成果走进“田间果园”
上海地区低需冷量甜樱桃品种的引进与筛选
网址: 甜樱桃呼吸特性及发酵阈值研究 https://m.huajiangbk.com/newsview1395392.html
| 上一篇: 国产樱桃的包装和运输有哪些特殊要 |
下一篇: 黄蜜樱桃的包装方法 |
