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中国精品科技期刊2020
顾晓敏,杨海龙,韩延超,等. 不同品种莲藕淀粉与全粉颗粒形态及品质特性分析[J]. 食品工业科技,2021,42(23):95−101. doi: 10.13386/j.issn1002-0306.201050168.
引用本文: 顾晓敏,杨海龙,韩延超,等. 不同品种莲藕淀粉与全粉颗粒形态及品质特性分析[J]. 食品工业科技,2021,42(23):95−101. doi: 10.13386/j.issn1002-0306.201050168.
GU Xiaomin, YANG Hailong, HAN Yanchao, et al. Analysis on the Morphology and Quality Characteristics of Different Varieties of Lotus Root Starch and Whole Powder[J]. Science and Technology of Food Industry, 2021, 42(23): 95−101. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.201050168.
Citation: GU Xiaomin, YANG Hailong, HAN Yanchao, et al. Analysis on the Morphology and Quality Characteristics of Different Varieties of Lotus Root Starch and Whole Powder[J]. Science and Technology of Food Industry, 2021, 42(23): 95−101. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.201050168.

不同品种莲藕淀粉与全粉颗粒形态及品质特性分析

Analysis on the Morphology and Quality Characteristics of Different Varieties of Lotus Root Starch and Whole Powder

  • 摘要: 以6个不同品种莲藕为原料,在分别制备淀粉和全粉基础上,研究莲藕淀粉、全粉的颗粒形态、糊化特性、热学特性及质构特性间的差异。结果表明:莲藕淀粉颗粒表面光滑,无裂痕,多数呈短棒状,少数为椭圆形,部分淀粉颗粒表面有凹陷;莲藕全粉表面粗糙且形状不规则。除“鄂莲1号”外,其余5个不同莲藕淀粉与全粉亮度均具有显著性差异,但淀粉透明度高于全粉。莲藕淀粉起始糊化温度与焓变值均高于莲藕全粉,‘杭州黄荷头’淀粉颗粒糊化最高,为63.9 ℃,‘鄂莲6号’全粉糊化温度最低,为55.0 ℃。莲藕淀粉膨胀性能与热糊稳定性较好,莲藕全粉冷糊稳定性较好。莲藕淀粉咀嚼性、延展性整体低于莲藕全粉,弹性、硬度基本相同,但是‘鄂莲1号’全粉咀嚼性、延展性均高于其他品种。

     

    Abstract: The present work reported the differences in the between particle morphology, gelatinization properties, thermal properties and texture propertiesmorphology and quality characteristics of starch particles and whole powders obtained from six different varieties of lotus root. The results showed that the surface of lotus root starch particles was smooth without cracks, but with depressions. Most of the particles were short rod-shaped, but some were elliptical; the whole lotus root powder had rough surface and irregular shape.Remove'Elian No.1' 5other was significant difference between lotus root starch and whole flour in the brightness, but the transparency of starch wassignificantly higher than that of whole flour. The initial gelatinization temperature and enthalpy change value of lotus root starch were higher than that of whole lotus root starch. The gelatinization temperature of starch particlesobtained from 'Hangzhouhuanghetou' was 63.9 ℃, the highest gelatinization temperature among testing samples. The gelatinization temperature of 'Elian No. 6'whole powder was 55.0 ℃, the lowest gelatinization temperature among testing samples.Lotus root starch had better expansion properties and thermal paste stability, and lotus root whole powder hadbetter cold paste stability. The chewiness and ductility of lotus root starch were generally lower than that of whole lotus root powder, butthe elasticity and hardness were similar. Among samples, the chewiness and ductility of whole lotus root starch obtained from 'Elian No. 1' were higher than other varieties.

     

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