Micronutrient diversity in pole and bush type Dolichos bean germplasm: identification of gene sources from biofortification perspectives

Plant Genetic Resources Pub Date : 2024-01-04 DOI:10.1017/s1479262123001077

Raj Bahadur Yadava, Rajeev Kumar, Hare Krishna, Kamlesh Yadav, Nagendra Rai, Manish Singh, Jagdish Singh, Tusar Kanti Behera

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Abstract

Exploring the nutritional potential of underutilized legumes such as Dolichos bean (Lablab purpureus L.) is of great significance, particularly, in view of accomplishing the United Nation's Sustainable Development Goal number two, which emphasizes on improving food and nutrition security by 2030. A thorough understanding of genetic variability is crucial for developing biofortified cultivars of Dolichos bean. In this study, the Dolichos bean genotypes represented by pole and bush types (28 bush and 19 pole types) were assessed for genetic variability for Cu, Mn, Fe and Zn contents. Pole type genotypes had higher average contents for all micronutrients except manganese. Among micronutrients, Cu, Fe, Mn and Zn, content ranged from 10.10–19.95, 77.13–331.93, 22.78–46.40 and 42.03–102.85 mg kg−1 in pole type, and 8.2–18.5, 50.8–99.3, 25.65–53.25 and 37.15–63.25 mg kg−1 in bush type beans, respectively. Strong positive correlations between Cu, Fe and Zn concentrations occurred, which indicates the possibility of simultaneous improvement of these nutrients. Pod pigmentation was positively correlated with contents of Fe and Zn. There was an association of micronutrients with yield. The pole genotypes VRSEM-1000, VRDB-01 and VRSEM 109 and bush type genotypes VRBSEM-3, VRBSEM-35 and VRBSEM- 200 are good source of microelements and high yielders. Gene sources with enhanced nutrients may be used as cultivated forms or as input material for breeding nutritionally rich biofortified varieties of bean.

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杆型和灌木型多利豆种质中的微量营养素多样性：从生物强化角度确定基因来源

探索未得到充分利用的豆科植物（如多利可豆（Lablab purpureus L.））的营养潜力具有重要意义，特别是考虑到要实现联合国可持续发展目标 2，该目标强调到 2030 年改善粮食和营养安全。透彻了解遗传变异对开发生物强化多利豆栽培品种至关重要。在这项研究中，对以杆型和灌木型（28 个灌木型和 19 个杆型）为代表的多利克豆基因型进行了评估，以确定其铜、锰、铁和锌含量的遗传变异性。除锰之外，杆型基因型的所有微量营养元素的平均含量都较高。在微量营养元素中，杆豆中铜、铁、锰和锌的含量分别为 10.10-19.95、77.13-331.93、22.78-46.40 和 42.03-102.85 毫克/千克，灌木豆中分别为 8.2-18.5、50.8-99.3、25.65-53.25 和 37.15-63.25 毫克/千克。铜、铁和锌的浓度之间存在很强的正相关性，这表明这些营养元素有可能同时得到改善。豆荚色素与铁和锌的含量呈正相关。微量营养元素与产量有关。杆状基因型 VRSEM-1000、VRDB-01 和 VRSEM 109 以及灌木型基因型 VRBSEM-3、VRBSEM-35 和 VRBSEM- 200 是微量元素的良好来源和高产品种。营养成分增强的基因源可用作栽培品种，也可用作培育营养丰富的生物强化豆类品种的投入材料。

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Plant Genetic Resources

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