Development and Characterization of Advanced Mutants of Mungbean for Yield-Contributing Traits
Das, B., Akter, S., Abdullah, A., Afrin, F., Ahmed, S., Pessarakli, M., Hossain, M. (2025). Development and Characterization of Advanced Mutants of Mungbean for Yield-Contributing Traits. EKB Journal Management System, 47(4), 1005-1020. doi: 10.21608/agro.2025.365054.1637
Biswajit Das; Sadia Akter; Adrita Abdullah; Fauzia Afrin; Soyed Mohiuddin Ahmed; Mohammad Pessarakli; Mohammad Anwar Hossain. "Development and Characterization of Advanced Mutants of Mungbean for Yield-Contributing Traits". EKB Journal Management System, 47, 4, 2025, 1005-1020. doi: 10.21608/agro.2025.365054.1637
Das, B., Akter, S., Abdullah, A., Afrin, F., Ahmed, S., Pessarakli, M., Hossain, M. (2025). 'Development and Characterization of Advanced Mutants of Mungbean for Yield-Contributing Traits', EKB Journal Management System, 47(4), pp. 1005-1020. doi: 10.21608/agro.2025.365054.1637
Das, B., Akter, S., Abdullah, A., Afrin, F., Ahmed, S., Pessarakli, M., Hossain, M. Development and Characterization of Advanced Mutants of Mungbean for Yield-Contributing Traits. EKB Journal Management System, 2025; 47(4): 1005-1020. doi: 10.21608/agro.2025.365054.1637

Development and Characterization of Advanced Mutants of Mungbean for Yield-Contributing Traits

Egyptian Journal of Agronomy
Volume 47, Issue 4, December 2025, Pages 1005-1020    PDF (769.12 K)
Document Type: Original Article
DOI: 10.21608/agro.2025.365054.1637
Authors
Biswajit Das1; Sadia Akter2; Adrita Abdullah1; Fauzia Afrin1; Soyed Mohiuddin Ahmed3; Mohammad Pessarakli4; Mohammad Anwar Hossain* 1
1Department of Genetics and Plant Breeding, Bangladesh Agricultural University, Mymensingh, 2202, Bangladesh
2Department of Genetics and Plant Breeding, Bangladesh Agricultural University, Mymensingh, 2202, Bangladesh;
3Advanced Seed Research and Biotech Centre, ACI Limited, Dhaka 1212, Bangladesh
4School of Plant Sciences, The University of Arizona, Tucson, AZ 85721, USA
Abstract
This study aims to characterize sixteen advanced mungbean mutants (M4 generation), developed through ethyl methanesulfonate and gamma radiation, for yield-related traits and biometrical analyses of the traits for efficient selection. The experiment was conducted employing a randomized complete block design. Data on ten key traits [days to first flowering (DFF), days to first harvest (DFH), days to last harvest (DLH), plant height (PH), number of branches per plant (NBP), number of pods per plant (NPP), pod length (PL), number of seeds per pod (NSP), 100-seed weight (100-SW), and yield per plant (YPP)] were recorded. Significant variability among genotypes was observed for all traits. Higher YPP was recorded in the mutants DEMS22 (28.55 g), DGR41 (24.14 g), BEMS62 (23.5 g), DGR51 (23.35 g), DEMS61 (23.3 g), and BEMS61 (23.15 g). High heritability and high genetic advance (%) was observed for YPP (97% and 54.23%, respectively), NPP (97% and 52.42%, respectively), NBP (90% and 42.06%, respectively), PH (97% and 36.51%, respectively), 100-SW (93% and 34.76%, respectively), and NSP (95% and 27.5%, respectively). YPP showed significant positive correlation with DLH, and NPP. Path analysis identified DLH, NSP, and NPP as the primary direct contributors to yield. Principal component analysis (PCA) indicated that the first three PC explained 79.32% of the total variation, with DLH, NPP, PL, 100-SW, and YPP showed significant contributors to divergence. Cluster analysis categorized the genotypes into four distinct clusters where cluster III identified as the most promising. Therefore, the identified promising mutants can be used for developing high-yielding varieties.
Keywords
Mungbean; mutagenesis; yield; heritability; cluster analysis
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