Singh Mandeep, Nara Usha, Rani Neeraj, Pathak Dharminder, Sangha Manjeet Kaur, Kaur Kirandeep
Department of Plant Breeding and Genetics, Punjab Agricultural University, Ludhiana, Punjab, India.
School of Organic Farming, Punjab Agricultural University, Ludhiana, Punjab, India.
Biol Trace Elem Res. 2023 May;201(5):2665-2673. doi: 10.1007/s12011-022-03359-4. Epub 2022 Jul 25.
Celery is an important nutritionally rich crop in the family Apiaceae. It is cultivated worldwide for food as well as for use in pharmaceutics. It is an excellent source of minerals, vitamins, and phytochemicals. Identification of superior genotypes with improved nutritional content is the requirement to develop cultivars for commercial cultivation. For mineral analysis of celery, an experiment was carried out taking 20 diverse genotypes. These genotypes were analysed for macro- and micronutrients which include nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), iron (Fe), zinc (Zn), manganese (Mn), copper (Cu), and sodium (Na). The study revealed high content of K (20.3-26.1 mg/g dry weight (DW)) and Zn (0.09-0.14 mg/g DW) in leaves while the stalks were rich in Ca (41.5-51.3 mg/g DW) and Na (5.2-8.0 mg/g DW). High contents of P (5.2-6.8 mg/g DW), Fe (0.41-0.56 mg/g DW), Cu (0.015-0.026 mg/g DW), and Mn (0.020-0.029 mg/g DW) were observed in seeds. Based on the mineral content, three genotypes, viz., PAU2, PAU4, and PAU7, were found to be superior in terms of mineral composition in leaves, stalks, and seeds. Cluster analysis divided the genotypes into two major groups. These genotypes can be used in crosses as they showed great potential for use in biofortification. This study opens newer avenues for future research, encouraging researchers to enhance the product quality and production efficiency of the leaves, stalks, and seeds valuable for human consumption.
芹菜是伞形科一种重要的营养丰富的作物。它在全球范围内被种植用于食用以及制药。它是矿物质、维生素和植物化学物质的优质来源。鉴定营养成分得到改善的优良基因型是开发用于商业种植品种的必要条件。为了对芹菜进行矿物质分析,选取了20个不同的基因型进行实验。对这些基因型的大量和微量营养素进行了分析,包括氮(N)、磷(P)、钾(K)、钙(Ca)、铁(Fe)、锌(Zn)、锰(Mn)、铜(Cu)和钠(Na)。研究表明,叶片中钾(K)含量高(20.3 - 26.1毫克/克干重(DW))和锌(Zn)含量高(0.09 - 0.14毫克/克DW),而茎中钙(Ca)含量高(41.5 - 51.3毫克/克DW)和钠(Na)含量高(5.2 - 8.0毫克/克DW)。种子中磷(P)(5.2 - 6.8毫克/克DW)、铁(Fe)(0.41 - 0.56毫克/克DW)、铜(Cu)(0.015 - 0.026毫克/克DW)和锰(Mn)(0.020 - 0.029毫克/克DW)含量高。基于矿物质含量,发现PAU2、PAU4和PAU7这三个基因型在叶片、茎和种子的矿物质组成方面表现优异。聚类分析将这些基因型分为两个主要组。这些基因型可用于杂交,因为它们在生物强化方面显示出巨大潜力。这项研究为未来的研究开辟了新途径,鼓励研究人员提高对人类消费有价值的叶片、茎和种子的产品质量和生产效率。
