Department for Sustainable Process, Faculty of Agriculture, Food and Environmental Science (DiSTAS), Via Emilia Parmense 84, 29122 Piacenza, Italy.
Department of Animal Science, Food and Nutrition, Faculty of Agricultural, Food and Environmental Sciences (DiANA), Via E. Parmense 84, 29122 Piacenza, Italy.
Int J Food Microbiol. 2022 Feb 2;362:109445. doi: 10.1016/j.ijfoodmicro.2021.109445. Epub 2021 Nov 10.
Amaranth (Amaranthus sp.) is a promising indigenous leafy vegetable plant capable of contributing to food security in sub-Saharan Africa, thanks to its adaptability to diverse soils and its drought tolerance. Its edible parts such as leaves are characterized by high nutrient content. Food losses along the supply chain due to spoilage, however, especially of fresh produce is a challenge facing most of the sub-Saharan African countries in tackling food insecurity in the region. This calls for innovative yet inexpensive solutions such as natural fermentation to preserve the quality and safety of the commodity. To demonstrate the feasibility of natural fermentation in the preservation of vegetable amaranth, leaves were submerged (1:0.5 w/v) in distilled water with 3% sucrose and 3% NaCl dissolved. Control batches were prepared using only distilled water (1:0.5 w/v) with amaranth leaves. Samplings of both treated leaves and controls occurred at 0, 24, 48, 72, and 168 h to measure the pH and determine microbial population changes using culture and molecular-based techniques. Furthermore, the effects of treatment on nutritional content were assayed at the end of the process to determine the levels of B-group vitamins, β-carotene, lutein, and anti-nutrient phytic acid from unfermented fresh air-dried and 3% sucrose and 3% NaCl treated amaranth leaves. Finally, a visive and olfactive analysis was carried out to evaluate the acceptability of the final product. The significant drop of pH and the correct growth of Lactobacillaceae occurred only in treated batches, although Lactococcus was found in both treated and control samples. Furthermore, mean counts observed on selective media for controls and molecular high-throughput sequencing (HTS) analyses confirmed that in control samples, the undesired bacteria represented more than 60% of the microbial population. In treated amaranth leaves the amount of thiamin, riboflavin, vitamin B, β-carotene and lutein content were higher compared to the fresh unfermented air-dried leaves, and phytic acid content diminished after 7-days treatment. These findings suggest that treatment of amaranth leaves using 3% sucrose and 3% NaCl does not only preserve the commodity by arresting the growth of undesired microorganisms involved in spoilage and fosters the lactic acid bacteria but also improves the nutritional content of the fermented end product that has been warmly welcomed by panelists.
苋菜(Amaranthus sp.)是一种很有前途的本土叶菜类植物,由于其对各种土壤的适应性和耐旱性,能够为撒哈拉以南非洲的粮食安全做出贡献。其可食用部分,如叶子,具有很高的营养成分。然而,由于变质导致的供应链食品损失,尤其是新鲜农产品的损失,是撒哈拉以南非洲国家在解决该地区粮食不安全问题时面临的一个挑战。这就需要创新且廉价的解决方案,例如自然发酵来保持商品的质量和安全。为了证明自然发酵在蔬菜苋菜保存中的可行性,将叶子(1:0.5 w/v)浸入含有 3%蔗糖和 3%NaCl 的蒸馏水中。对照组仅使用蒸馏水处理(1:0.5 w/v),同时加入苋菜叶。在 0、24、48、72 和 168 h 时对处理过的叶子和对照组进行采样,以测量 pH 值并使用培养和基于分子的技术来确定微生物种群变化。此外,在处理结束时测定处理对营养成分的影响,以确定未发酵的新鲜空气干燥和 3%蔗糖和 3%NaCl 处理的苋菜叶中的 B 族维生素、β-胡萝卜素、叶黄素和抗营养植酸的水平。最后,进行视觉和嗅觉分析,以评估最终产品的可接受性。只有在处理过的批次中才会出现 pH 值显著下降和乳杆菌科的正确生长,尽管在处理过的和对照组的样本中都发现了乳球菌。此外,对照组和高通量测序(HTS)分析的选择性培养基上的平均计数证实,在对照组样本中,不受欢迎的细菌占微生物群的 60%以上。在处理过的苋菜叶中,与新鲜未发酵的空气干燥叶相比,硫胺素、核黄素、维生素 B、β-胡萝卜素和叶黄素的含量较高,而植酸含量在 7 天处理后减少。这些发现表明,使用 3%蔗糖和 3%NaCl 处理苋菜叶不仅可以通过阻止参与变质的不受欢迎微生物的生长来保存商品,促进乳酸菌的生长,而且还可以提高发酵终产物的营养价值,该产品受到了小组成员的热烈欢迎。
