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Influence of drying temperature on dietary fibre rehydration properties texture and microstructure of Cape gooseberry (Physalis peruviana L.)

机译：干燥温度对猕猴桃饮食纤维补水性能质地和微结构的影响

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摘要

The effects of air drying temperature on dietary fibre, texture and microstructure of the Cape gooseberry fruits during convective dehydration in the range of 50–90 ºC were investigated. The ratio of insoluble dietary fibre to soluble dietary fibre was higher than 7:1 for all dehydrated samples. At 50 ºC tissue structure damage was evidenced leading to the maximum water holding capacity (47.4 ± 2.8 g retained water/100 g water) and the lowest rehydration ratio (1.15 ± 0.06 g absorbed water/g d.m.). Texture analysis showed effects of drying temperatures on TPA parameters. Changes in microstructure tissue were also observed at the studied drying temperatures. Hot air drying technology leads not only to fruit preservation but also increases and adds value to Cape gooseberry, an asset to develop new functional products.

机译：研究了在50–90ºC的对流脱水过程中，风干温度对灯笼果果实的膳食纤维，质地和微结构的影响。对于所有脱水样品，不溶性膳食纤维与可溶性膳食纤维之比均高于7：1。在50ºC时，证明组织结构受到破坏，从而导致最大持水量（47.4±±2.8 g保留水/ 100 g水）和最低的补水率（1.15±±0.06 g吸收水/ g d.m.）。质地分析表明干燥温度对TPA参数的影响。在研究的干燥温度下也观察到组织显微组织的变化。热风干燥技术不仅可以保鲜水果，还可以增加醋栗角的价值，这是开发新功能产品的资产。

著录项

期刊名称 Journal of Food Science and Technology
作者
Antonio Vega-Gálvez; Liliana Zura-Bravo; Roberto Lemus-Mondaca; Javier Martinez-Monzó; Issis Quispe-Fuentes; Luis Puente; Karina Di Scala;
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作者单位

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年(卷),期 2015(52),4
年度 2015
页码 2304–2311
总页数 8
原文格式 PDF
正文语种
中图分类营养学;
关键词
Physalis peruviana Dietary fibre Texture profile analysis Rehydration properties Microstructure;

机译：酸浆;膳食纤维;质地特征分析;补水性能;微观结构;

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专利

1. Influence of drying temperature on dietary fibre, rehydration properties, texture and microstructure of Cape gooseberry (Physalis peruviana L.) [J] . Vega-Galvez Antonio, Zura-Bravo Liliana, Lemus-Mondaca Roberto, Journal of Food Science and Technology . 2015,第4期

机译：干燥温度对灯笼果膳食纤维，补水性能，质地和微结构的影响
2. Influence of drying temperature on dietary fibre, rehydration properties, texture and microstructure of Cape gooseberry (Physalis peruviana L.) [J] . Vega-Galvez Antonio, Zura-Bravo Liliana, Lemus-Mondaca Roberto, Journal of Food Science and Technology . 2015,第4期

机译：干燥温度对甲夫利布林籽粒饮食纤维，再水化性能，纹理和微观结构的影响（粉底液（苍白腹水）
3. The influence of drying on the physiological quality of cape gooseberry ( Physalis peruviana L.) fruits added with active components [J] . Cabrera Ordo?ez Yudy Ana, Estrada Mesa Eliana María, Cortés Rodríguez Misael Acta Agronomica . 2017,第4期

机译：干燥对加有活性成分的灯笼果果实的生理品质的影响
4. Effect of Irrigation and Nutrition with Calcium on Fruit Cracking of the Cape Gooseberry (Physalis peruviana L.) in the Three Strata of the Plant [C] . J. Alvarez-Herrera, H. Balaguera-López, G. Fischer International Horticultural Congress on Science and Horticulture for People . 2012

机译：钙对植物三层山甘油（粉煤灰浆）果实裂纹果实裂缝的影响
5. Microstructure evolution and its influence on thermal expansion and tensile properties of the superalloy IN738LC at high temperatures. [D] . Balikci, Ercan. 1998

机译：高温下超级合金IN738LC的组织演变及其对热膨胀和拉伸性能的影响。
6. Optimization of the genotyping‐by‐sequencing SNP calling for diversity analysis in cape gooseberry (Physalis peruviana L.) and related taxa [O] . Felix E. Enciso-Rodríguez, Jaime A. Osorio-Guarín, Gina A. Garzón-Martínez, 2020

机译：逐个测序SNP的优化呼吁在Cape鹅莓（Physalis Peruviana L.）和相关分类中的分化分析
7. IMPACT OF HOT-AIR DRYING TEMPERATURE AND VELOCITY ON DRYING KINETICS, COLOR, PHYTOCHEMICALS AND ANTIOXIDANT ACTIVITY OF CAPE GOOSEBERRY (Physalis peruviana l.) FRUITS [O] . K. Youssef 2015

机译：热风干燥温度和速度对甲酚（苍白血液）的干燥动力学，颜色，植物化学和抗氧化活性的影响

Influence of drying temperature on dietary fibre rehydration properties texture and microstructure of Cape gooseberry (Physalis peruviana L.)

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