UMR Qualisud, CIRAD, univ Montpellier, TA B-95/16, 73 rue J-F. Breton, F- 34398 Montpellier cedex 5, France.
UMR Qualisud, CIRAD, univ Montpellier, TA B-95/16, 73 rue J-F. Breton, F- 34398 Montpellier cedex 5, France.
Food Res Int. 2019 May;119:268-275. doi: 10.1016/j.foodres.2019.02.010. Epub 2019 Feb 4.
A cytohistological investigation was performed to better understand the structural alterations of cowpea seeds in relation with soaking. Thin sections obtained from seeds soaked at 30 °C, 60 °C and 95 °C were treated to specifically visualize starch, proteins, cellulose and pectin. Micropyle behavior as well as water uptake and dry matter loss were also monitored. A Soaking at 30 °C induced slight alteration of parenchymatous cells of cotyledons, whereas drastic alterations were observed at 60 °C and intense alterations at 95 °C. All these structural modifications of cells could explain losses of nutrients and antinutritional factors at the highest soaking temperature (95 °C). The size of the apertures in the micropyle sections varied depending on both soaking temperature and time. At 30 °C and 60 °C, the micropyle aperture enabled notable water uptake by seeds. At 95 °C, water was entirely taken up through the testa. These results show that models describing nutrients losses and water uptake should account for these structure changes during soaking of legumes.
进行了细胞组织学研究,以更好地了解与浸泡相关的豇豆种子的结构变化。对在 30°C、60°C 和 95°C 下浸泡的种子获得的薄片进行了处理,以专门观察淀粉、蛋白质、纤维素和果胶。还监测了珠孔的行为以及水分吸收和干物质损失。在 30°C 下浸泡仅引起子叶的薄壁细胞发生轻微变化,而在 60°C 下则观察到剧烈变化,在 95°C 下则观察到强烈变化。所有这些细胞结构的变化都可以解释在最高浸泡温度(95°C)下营养物质和抗营养因子的损失。珠孔切片中孔的大小取决于浸泡温度和时间。在 30°C 和 60°C 下,珠孔允许种子显著吸收水分。在 95°C 下,水完全通过种皮吸收。这些结果表明,描述营养物质损失和水分吸收的模型应考虑到浸泡豆类过程中的这些结构变化。
