[1]赵邯,刘春菊,李大婧,等.糖酸协同调控黄桃脆片质地[J].江苏农业学报,2024,(06):1120-1128.[doi:doi:10.3969/j.issn.1000-4440.2024.06.019]
 ZHAO Han,LIU Chunju,LI Dajing,et al.Synergistic regulation of sugar and acid on the texture of yellow peach chips[J].,2024,(06):1120-1128.[doi:doi:10.3969/j.issn.1000-4440.2024.06.019]
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糖酸协同调控黄桃脆片质地()
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江苏农业学报[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2024年06期
页码:
1120-1128
栏目:
加工贮藏·质量安全
出版日期:
2024-06-30

文章信息/Info

Title:
Synergistic regulation of sugar and acid on the texture of yellow peach chips
作者:
赵邯12刘春菊12李大婧1李斌2李越12庞文倩12吴海虹1牛丽影1
(1.江苏省农业科学院农产品加工研究所,江苏南京210014;2.沈阳农业大学食品学院,辽宁沈阳110161)
Author(s):
ZHAO Han12LIU Chunju12LI Dajing1LI Bin2LI Yue12PANG Wenqian12WU Haihong1NIU Liying1
(1.Institute of Argo-product Processing, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China;2.Food Science College, Shenyang Agricultural University, Shenyang 110161, China)
关键词:
黄桃脆片压差膨化干燥质地特性孔隙结构
Keywords:
yellow peach chipsexplosion puffing dryingtexture characteristicspore structure
分类号:
TS255.36
DOI:
doi:10.3969/j.issn.1000-4440.2024.06.019
摘要:
为探究糖、酸对压差膨化黄桃脆片质地协同调控的特性,利用蔗糖、柠檬酸、磷酸二氢钠处理黄桃脆片,并对处理后的黄桃脆片质地、微观结构、细胞壁组分与孔隙结构进行分析。结果表明:与对照相比,单一蔗糖处理黄桃脆片的硬度、破裂距离显著下降,单一柠檬酸处理和单一磷酸二氢钠处理黄桃脆片的硬度、破裂距离和脆裂用功均显著下降。24%蔗糖+2.0%柠檬酸+2.0%磷酸二氢钠溶液复合处理的黄桃脆片质地特性指数最高,水溶性果胶含量最低。从微观结构可以看出,添加蔗糖可固化细胞壁,柠檬酸可增大细胞孔隙,磷酸二氢钠可进一步促进两者的协同作用,使黄桃脆片结构更加整齐均匀。因此,24%蔗糖+2.0%柠檬酸+2.0%磷酸二氢钠溶液复合处理的黄桃脆片细胞间孔隙均匀,边界清晰,细胞壁排列规则,呈现出蜂窝状结构。本研究发现糖酸可以协同调控压差膨化黄桃脆片质地,且磷酸盐可进一步促进糖酸协同作用,本研究结果为黄桃脆片加工品质的提升提供了技术支撑和理论依据。
Abstract:
To explore the synergistic regulation of sugar and acid on the texture of pressure-differential puffed yellow peach chips, the yellow peach chips were treated with sucrose, citric acid and sodium dihydrogen phosphate, and the texture, microstructure, cell wall components and pore structure of the treated yellow peach chips were analyzed. The results showed that compared with the control, the hardness and cracking distance of yellow peach chips treated with single sucrose decreased significantly. Compared with the control, the hardness, cracking distance and work of cracking of yellow peach chips treated with single citric acid and single sodium dihydrogen phosphate decreased significantly. The yellow peach chips treated with 24% sucrose+2.0% citric acid+2.0% sodium dihydrogen phosphate had the highest texture index and the lowest water-soluble pectin content. The microstructure showed that sucrose could solidify the cell wall, citric acid could increase the cell porosity, and sodium dihydrogen phosphate could further promote the synergy between the two, making the structure of yellow peach chips more even. Therefore, the yellow peach chips treated with 24% sucrose+2.0% citric acid+2.0% sodium dihydrogen phosphate solution had uniform intercellular spaces, clear borders, regular cell wall arrangement and honeycomb structure. It was found that the sugar and acid could coordinate the texture of the puffed yellow peach chips, and the phosphate could further promote the sugar and acid synergistic action. The results of this study can provide technical support and theoretical basis for the improvement of the processing quality of yellow peach chips.

参考文献/References:

[1]RICARDO L M, JADE V L. Effect of multi-flash drying and microwave vacuum drying on the microstructure and texture of pumpkin slices[J]. LWT-Food Science and Technology,2018,96:112-126.
[2]AKHTARUZZAMAN M D, SHAKIL M D, SAZZAD-HOSSAIN M D, et al. OSMO-microwave drying of pineapple (Ananas comosus) slices:mass transfer kinetics and product quality characterization[J]. Asian Food Science Journal,2022,21(12):63-77.
[3]GONDEK E, JAKUBCZYK E, HERREMANS E, et al. Acoustic, mechanical and microstructural properties of extruded crisp bread[J]. Journal of Cereal Science,2013,58(1):132-139.
[4]CARSANBA E, DUERRSCHMID K, SCHLEINING G. Assessment of acousticmechanical measurements for crispness of wafer products[J]. Journal of Food Engineering,2018,229:93-101.
[5]CHANG H Y, VICKERS Z M, TONG C B. The use of a combination of instrumental methods to assess change in sensory crispness during storage of a “Honeycrisp” apple breeding family[J]. Journal of Texture Studies,2018,49(2):228-239.
[6]WANG M, SUN Y, HOU J, et al. A comparison of food crispness based on the cloud model[J]. Journal of Texture Studies,2018,49(1):102-112.
[7]AHMED I, QAZI I M, JAMAL S. Developments in osmotic dehydration technique for the preservation of fruits and vegetables[J]. Innovative Food Science & Emerging Technologies,2016,34:29-43.
[8]WANG H O, FU Q Q, CHEN S J, et al. Effect of hot-water blanching pretreatment on drying characteristics and product qualities for the novel integrated freeze-drying of apple slices[J]. Journal of Food Quality,2018:1-12. DOI:10.1155/2018/1347513.
[9]ANDO Y, HAGIWARA S, NABETANI H, et al. Improvements of drying rate and structural quality of microwave-vacuum dried carrot by freeze-thaw pretreatment[J]. LWT- Food Science and Technology,2019,100:294-299.
[10]CARRION C, MULET A, GARCA-PEREZ A, et al. Ultrasonically assisted atmospheric freeze-drying of button mushroom. Drying kinetics and product quality[J]. Drying Technology,2018,36(15):1814-1823.
[11]TABTIANG S, PRACHAYAWARAKON S, SOPONRONNARIT S. Effects of osmotic treatment and superheated steam puffing temperature on drying characteristics and texture properties of banana slices[J]. Drying Technology,2012,30(1):20-28.
[12]张立彦,芮汉明,李作为,等. 蔗糖对淀粉物料微波膨化的影响研究[J]. 食品工业科技,2004,22(3):19-21.
[13]BARRETT A, KALETUNC G, ROSENBURG S, et al. Effect of sucrose on the structure,mechanical strength and thermal properties of corn extrudates[J]. Carbohydrate Polymers,1995,26(4):261-269.
[14]呼娜,李路宁,李雅松,等. 磷酸酯板栗淀粉的工艺优化[J]. 食品工业科技,2013,34(7):281-285.
[15]DENG L Z, MUJUMDAR A S, ZHANG Q, et al. Chemical and physical pretreatments of fruits and vegetables:effects on drying characteristics and quality attributes-a comprehensive review[J]. Critical Reviews in Food Science and Nutrition,2019,59(9):223-245.
[16]HE X Y, XIAO Z F, FENG X H, et al. Modification of poplar wood with glucose crosslinked with citric acid and 1,3-dimethylol-4,5-dihydroxy ethyleneurea[J]. Holzforschung,2016,70:47-53.
[17]LIU C H, ZHENG X Z, SHI J, et al. Optimising microwave vacuum puffing for blue honeysuckle snacks[J]. International Journal of Food Science & Technology,2010,45(3):96-117.
[18]GUO J, LIU C J, LIU J X, et al. Effect of sucrose and citric acid on the quality of explosion puffing dried yellow peach slices[J]. Drying Technology,2022,40(13):2783-2793.
[19]刘佳新. 浸渍预处理调控黄桃膨化脆片质地结构的研究[D]. 沈阳:沈阳农业大学,2019.
[20]谭礼斌. 果蔬多孔介质干燥热质传递及应力应变研究[D]. 咸阳:陕西科技大学,2017.
[21]黄宗海,何新益,王佳蕊,等. 预处理方式对胡萝卜变温压差膨化干燥品质的影响[J]. 食品与机械,2011,27(1):124-126.
[22]张炎,姚开,贾冬英. 浸糖工艺对气流膨化苹果脆片的影响[J]. 食品与发酵科技,2009,45(2):45-47.
[23]何新益,黄宗海,刘金福. 变温压差膨化干燥对冬枣总黄酮和水溶性糖含量的影响[J]. 河南农业科学,2010,39(10):100-103.
[24]邹克坚. 芒果渗透脱水和变温压差膨化干燥的研究[D]. 南宁:广西大学,2012.
[25]李榆杨. 芒草细胞壁降解中的多糖变化和NcPMO-2在植物中功能探索[D]. 武汉:华中农业大学,2017.
[26]张鹏飞,吕健,毕金峰,等. 渗透脱水对变温压差膨化干燥桃片品质的影响[J].中国食品学报,2017,17(1):69-76.
[27]EFC B, TRAJKOVIC J, MARIN H, et al. Dimensional stability of wood modified by citric acid using different catalysts[J]. Drvna Industrija,2009,60(1):168-181.
[28]张绍阳,李洪艳,田亚容,等. 沙子空心李果脯配方工艺优化[J]. 安徽农学通报,2020,26(5):119-122.
[29]刘春菊,王海鸥,刘春泉,等. 预处理对气流膨化干燥黄桃丁品质的影响[J]. 食品工业科技,2016,37(3):251-255.
[30]肖敏. 不同糖渗透处理和干燥方式对苹果脆片质构品质形成影响的研究[D]. 北京:中国农业科学院,2017.
[31]陈腊梅,金鑫,毕金峰,等. 超声辅助糖液渗透处理对真空冷冻干燥桃脆片干制品品质及吸湿性的影响[J]. 食品科学,2022,43(17):117-123.
[32]TABTIANG S, PRACHAYAWARAKON S, SOPONRONNARIT S. Effects of osmotic treatment and superheated steam puffing temperature on drying characteristics and texture properties of banana slices[J]. Drying Technology,2012,30(1):20-28.
[33]杜胜兰. 粉脆质地莲藕细胞壁组分差异及其影响因素的研究[D]. 武汉:华中农业大学,2013.
[34]张茂杰. 采用变温压差膨化技术开发红薯脆片的研究[D]. 武汉:武汉轻工大学,2013.
[35]刘艳汝. 共轭酸碱预处理体系下杨木细胞壁组分的降解、迁移及溶出规律[D]. 济南:齐鲁工业大学,2017.
[36]车文博,肖泽芳,谢延军. 蔗糖与二羟甲基二乙烯脲浸渍压缩杨木单板的性能评价[J]. 东北林业大学学报,2016,44(8):73-77.
[37]LIU C, WANG H, NIU L, et al. Effect of sucrose regulation on microstructure and quality of air-expanded yellow peach chips[J]. Food Science,2020,41(11):113-120.
[38]PROTHON F, AHRN′E L, SJOHOLM I. Mechanisms and prevention of plant tissue collapse during dehydration:a critical review[J]. Critical Reviews in Food Science and Nutrition,2003,43(4):447-479.
[39]YANG J, MARTIN A, RICHARDSON S, et al. Microstructure investigation and its effects on moisture sorption in fried potato chips[J]. Journal of Food Engineering,2017,(214):117-128.

备注/Memo

备注/Memo:
收稿日期:2023-06-20基金项目:江苏省农业科技自主创新基金项目[CX(22)3176];江苏省重点研发计划(现代农业)项目(BE2023316);江苏现代农业产业技术体系建设专项[JATS(2022)447]作者简介:赵邯(1997-),女,吉林白山人,硕士研究生,研究方向为果蔬加工与品质调控。(E-mail)zhaohan19970529@163.com通讯作者:刘春菊,(E-mail)cjliu0306@163.com
更新日期/Last Update: 2024-07-15