Langyan Sapna, Bhardwaj Rakesh, Kumari Jyoti, Jacob Sherry Rachel, Bisht Ishwari Singh, Pandravada Someswara Rao, Singh Archna, Singh Pratap Bhan, Dar Zahoor Ahmed, Kumar Ashok, Rana Jai Chand
ICAR-National Bureau of Plant Genetic Resources (NBPGR), New Delhi, India.
ICAR-National Bureau of Plant Genetic Resources (NBPGR), Hyderabad, India.
Front Nutr. 2022 Apr 11;9:812599. doi: 10.3389/fnut.2022.812599. eCollection 2022.
Native germplasm resources are adapted to specific ecological niches. They have sustained over generations owing to the preference of local communities for their unique taste, the utility to particular dishes, and the low cost of cultivation. They may help eradicate malnutrition and act as a source for trait-linked genes. The present dataset comprises thirty-three native germplasm of maize collected from Rajasthan, Himachal Pradesh, and Andhra Pradesh states of India with an altitudinal variation of 386-2,028 m. They were evaluated for proximate composition, minerals, nutritional attributes, and antioxidant activity and compared with the standard values reported in the Indian Food Composition Table 2017 (IFCT2017). The nutritional profile showed moisture content in the range of 7.16-10.9%, ash 0.73-1.93%, crude protein 8.68-12.0%, crude fat 3.72-8.03%, dietary fiber 5.21-11.2%, and available carbohydrates 60.6-69.8%. Three accessions, namely, Malan 11 (7.06%), Malan 24 (7.20%), and Yellow Chamba Local 02 (8.03%) exhibited almost double the crude fat content as compared with the values notified in IFCT2017 (3.77). Total sugar content obtained was in the range of 5.00-11.3%, whereas the starch content was found between 50.9 and 64.9%. All the germplasm except Yellow Chamba Local reflected a higher protein content than reported values in IFCT2017 (8.80). Sathi, Safed Chamba Local, and Ragal Makka had nearly 12% protein content. Mineral malnutrition, mainly due to iron (Fe) deficiency, is a worldwide issue to science, humanity, and society. The mineral profile revealed that most germplasm had a higher iron content. Accessions with the iron content of nearly three times of IFCT2017 reported value were identified in germplasm belonging to three states. A negative relationship was observed between the altitude of the sample collection site and available carbohydrate content. In contrast, available carbohydrate showed inverse correlations with dietary fiber, protein, and fat content. The information generated in this study can be utilized to promote these germplasm as nutrifood, nutritional surveillance, labeling, and crop improvement programs.
本地种质资源适应特定的生态位。由于当地社区对其独特口味的偏好、对特定菜肴的实用性以及种植成本低,它们得以世代存续。它们可能有助于消除营养不良,并作为与性状相关基因的来源。本数据集包含从印度拉贾斯坦邦、喜马偕尔邦和安得拉邦收集的33种玉米本地种质,海拔变化范围为386 - 2028米。对它们的近似成分、矿物质、营养属性和抗氧化活性进行了评估,并与《2017年印度食物成分表》(IFCT2017)中报告的标准值进行了比较。营养成分显示,水分含量在7.16 - 10.9%之间,灰分0.73 - 1.93%,粗蛋白8.68 - 12.0%,粗脂肪3.72 - 8.03%,膳食纤维5.21 - 11.2%,可利用碳水化合物60.6 - 69.8%。三个种质,即马兰11(7.06%)、马兰24(7.20%)和黄占巴本地02(8.03%)的粗脂肪含量几乎是IFCT2017(3.77)中公布值的两倍。获得的总糖含量在5.00 - 11.3%之间,而淀粉含量在50.9%至6
