Isolation and Characterization of Non‐Conventional and Underutilized Starch from Water Lily (Nymphaea lotus): Functional, Rheological, and Thermal Properties

Starch Pub Date : 2024-07-10 DOI:10.1002/star.202400005
Alemu Lema Abelti, Tilahun A. Teka, Geremew Bultosa
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Abstract

In this study, starch is isolated from Nymphaea lotus and its functional, rheological, and thermal properties are compared with potatoes, rice, and maize starches. The swelling power and solubility of all starches increased as the temperature increased. After 5 days of storage at +4 °C, syneresis increased, but paste clarity is decreased. The Herschel–Bulkley model well described the flow behavior, as evidenced by the upward and downward curves’ R2 values are higher than 0.95. Storage modulus and loss modulus increased as frequency increased, and the loss factors is less than unity for all starches. Differentially scanning calorimeter thermograms show the onset, peak, and conclusion temperature ranged from 58.5 to 68.01 °C, 68.94–73.97 °C, and 79.6–88.77 °C, respectively. The gelatinization temperature range and enthalpy of gelatinization ranged from 14.0 to 21.1 °C and 9.40–13.35 J g−1, respectively. Starch from N. lotus rhizome and seed exhibited a higher gelatinization temperature than potato starch, whereas their enthalpy of gelatinization is lower. Overall, the present finding will promote the utilization of starches isolated from the rhizome and seed of N. lotus for food and non‐food industries.
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从睡莲(Nymphaea lotus)中分离并表征非常规和未充分利用的淀粉:功能、流变和热性能
本研究从莲子中分离出淀粉,并将其功能、流变和热特性与马铃薯、大米和玉米淀粉进行了比较。所有淀粉的膨胀力和溶解度都随着温度的升高而增加。在 +4 °C 下储存 5 天后,粘滞性增加,但糊状物的透明度降低。Herschel-Bulkley 模型很好地描述了流动行为,向上和向下曲线的 R2 值均大于 0.95。储存模量和损耗模量随着频率的增加而增加,所有淀粉的损耗因子都小于 1。差示扫描量热仪热图显示,开始温度、峰值温度和结束温度分别为 58.5 至 68.01 ℃、68.94 至 73.97 ℃ 和 79.6 至 88.77 ℃。糊化温度范围和糊化焓分别为 14.0 至 21.1 ℃ 和 9.40-13.35 J g-1。莲藕根茎和种子淀粉的糊化温度比马铃薯淀粉高,而糊化焓却比马铃薯淀粉低。总之,本研究结果将促进从莲的根茎和种子中分离出的淀粉在食品和非食品工业中的利用。
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