Breadmaking Potential of Andean Roots and Tuber Starches from Ahipa (Pachyrhizus ahipa), Oca (Oxalis tuberosa), and Arracacha (Arracacia xanthorrhiza)

Starch Pub Date : 2024-08-28 DOI:10.1002/star.202400085
Cecilia Dini, Raquel Garzón, Cristina M. Rosell
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Abstract

Aim is to explore the breadmaking potential for gluten‐free goods of non‐conventional starches from Andean crops ahipa, oca, and arracacha. Their characteristics and performance in breadmaking are compared with those of cassava, taken as a reference for conventional gluten‐free root starch. Physicochemical properties of breads are studied along with the pasting and thermal properties, composition, and α‐amylase hydrolysis of starches. Arracacha starch has the lowest amylose content (2.4%) and the highest water hydration (1.4 g g−1). Its batter shows adequate proofing, but the bread is highly adhesive, with dense crumb. Ahipa starch paste has the lowest peak, trough and final viscosities determined by rapid visco analyzer, and the highest hydrolysis rate (kRVA = 2.30 min−1). Its batter exhibits, along with oca, the highest volume increase during fermentation (193–197%), but structure collapses in the oven and no alveoli are observed in the crumb. Conversely, oca forms a crumb structure similar to cassava, but with higher cell density (131 alveoli cm−2), cohesiveness (0.95), and resilience (0.65) than the latter (71 alveoli cm−2, 0.88, and 0.45, respectively). Oca starch has lower pasting temperature (64 °C) and the starch paste has similar hydrolysis rate (kRVA = 1.92 min−1) compared to cassava (71.9 °C and 2.08 min−1, respectively), making it a suitable option for providing gluten‐free yeast‐leavened breads with improved technological properties and a comparable glycemic index.
安第斯阿希帕(Pachyrhizus ahipa)、奥卡(Oxalis tuberosa)和 Arracacha(Arracacia xanthorrhiza)根茎和块茎淀粉制作面包的潜力
目的是探索安第斯作物阿希帕(ahipa)、奥卡(oca)和阿拉卡查(arracacha)中的非常规淀粉制作无筋面包的潜力。将它们在面包制作中的特性和性能与木薯的特性和性能进行比较,木薯是传统无麸质根茎淀粉的参照物。在研究面包的物理化学特性的同时,还研究了淀粉的粘贴和热特性、成分和α-淀粉酶水解作用。Arracacha 淀粉的直链淀粉含量最低(2.4%),水合作用最高(1.4 g-1)。它的面糊有足够的醒发,但面包的粘合性很高,面包屑很致密。用快速粘度分析仪测定,Ahipa 淀粉糊的峰值粘度、谷值粘度和最终粘度最低,水解率最高(kRVA = 2.30 min-1)。其面糊与奥卡面糊一样,在发酵过程中体积增加最多(193%-197%),但在烘箱中结构会坍塌,面包屑中也观察不到空泡。相反,奥卡淀粉形成的面包屑结构与木薯相似,但细胞密度(131 肺泡厘米-2)、内聚力(0.95)和回弹力(0.65)均高于后者(分别为 71 肺泡厘米-2、0.88 和 0.45)。奥卡淀粉的糊化温度较低(64 °C),淀粉糊的水解率(kRVA = 1.92 min-1)与木薯淀粉(分别为 71.9 °C 和 2.08 min-1)相似,因此奥卡淀粉是提供无麸质酵母发酵面包的合适选择,具有更好的技术特性和可比的升糖指数。
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