Genetic variability, morphological diversity, and antioxidant potential in gynoecious Coccinia accessions: implications for breeding and biofortification

Genetic variability, morphological diversity, and antioxidant potential in gynoecious Coccinia accessions: implications for breeding and biofortification

Abstract This study investigates genetic variability, morphological diversity, and biochemical traits in gynoecious Coccinia accessions using multivariate analysis. ANOVA revealed significant variation across key traits, with vine length (VL) ranging from 243.0 to 532.2 cm (CV = 10.15%), internode l...

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Main Authors: Lalu Prasad Yadav, K. Gangadhara, A. K. Singh, Vikas Yadav, V. V. Apparao, Anil Pawar, Sanjay Kumar, P. Janani, Anand Sahil, Pawan Kumar, Pratapsingh S. Khapte, N. K. Meena, Dinesh Jinger, Jagadish Rane
Format: Article
Language:English
Published: BMC 2025-07-01
Series:BMC Plant Biology
Subjects:
Coccinia grandis
Genetic variability
Biochemical traits
Yield traits
Correlation PCA
Antioxidants
Online Access:https://doi.org/10.1186/s12870-025-06335-x
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Summary:Abstract This study investigates genetic variability, morphological diversity, and biochemical traits in gynoecious Coccinia accessions using multivariate analysis. ANOVA revealed significant variation across key traits, with vine length (VL) ranging from 243.0 to 532.2 cm (CV = 10.15%), internode length (IL) from 6.15 to 9.7 cm, and leaf length (LL) from 6.52 to 8.76 cm. Fruit-related traits, including fruit diameter (FD) (1.72–4.76 cm), fruit length (FL) (3.74–8.16 cm), and average fruit weight (AFW) (11.88–30.42 g), showed significant variability (p < 0.01). Reproductive traits such as the number of female flowers per plant (NFFP) ranged from 828 to 1824 (CV = 12.08%), highlighting strong selection potential. Biochemical attributes exhibited considerable variation, with ascorbic acid (AsA) content between 18.52 and 53.68 mg/100 g and total soluble solids (TSS) from 0.9 to 3.4%. Antioxidant-related traits, including total phenolics (TPL: 13.66–24.95 mg GAE/100 g), total flavonoids (TFL: 5.42–12.16 mg CE/100 g), and ferric reducing antioxidant power (FRAPL: 20.49–46.62 µmol TE/g), indicated high bioactive potential. Strong positive correlations between yield traits (e.g., AFW and fruit yield per hectare, FYH, r > 0.9), were found by correlation analysis, and both trade-offs and synergies were seen between biochemical and morphological variables. Principal Component Analysis (PCA) highlighted genotype-specific trait relationships and explained 50.8% of the total variation. Cluster and network analyses further illustrated genetic diversity, with Thar Dipti (CHESIG-7) and Thar Sadabahar (CHESIG-2) emerging as genetically distinct accessions. These findings provide valuable insights for breeding strategies aimed at improving yield, antioxidant content, and fruit quality in Coccinia accessions.
ISSN:1471-2229

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