Genetic variability and character association studies in Indigenous germplasm of cashew (Anacardium occidentale L.) in Bastar Plateau of Chhattisgarh
Genetic Variability and Correlation in Cashew
Downloads
Published
DOI:
https://doi.org/10.58993/ijh/2026.83.1.1Keywords:
Cashew genotypes, genetic variability, heritability, selection traits, nut yuielIssue
Section
License
Copyright (c) 2026 Vikas Ramteke, Pankaj Bhargav, Padmakshi Thakur, Eradasappa E., J. D. Adiga
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
The study evaluated 24 indigenous cashew genotypes along with the check variety Vengurla-4 in the Bastar Plateau region of Chhattisgarh, India, to assess genetic variability, heritability, and trait associations for yield and quality improvement. Significant genotypic differences were observed for vegetative, reproductive and nut quality traits over two consecutive years (2023–24 and 2024–25). Moderate genotypic coefficient of variation and phenotypic coefficient of variation were recorded for nut weight (20.84%, 20.98%), apple weight (25.71%, 26.35%) and nut yield tree-1 (20.01%, 20.61%), indicating substantial genetic variability. Broad-sense heritability was highest for nut weight (98.60%), apple weight (95.20%) and shelling percentage (98.00%), suggesting strong additive gene effects. A significant genetic advance as percentage of the mean was noted for apple weight (51.66%), nut weight (42.62%) and nut yield (40.03%). Nut yield tree-1 showed a strong positive correlation with number of nuts panicle-1 (r = 0.925) and fruit set (r = 0.789), while nut weight was positively associated with apple weight (r = 0.709). The study identified key traits like nut weight, kernel weight, shelling percentage and canopy size as ideal for direct selection to improve nut yield and nut quality. Indigenous genotypes having potential traits with high heritability and genetic advance can serve as potential donors for breeding plan targeting, high nut yield, bold nut and high-density planting for sustainable cashew cultivation in plateau regions.Abstract
How to Cite
Downloads
1. Adu-Gyamfi, P.K.K., Dadzie, M.A., Barnor, M., Akpertey, A., Arthur, A., Osei-Akoto, S., Ofori, A. and Padi, F. 2019. Genetic variability and trait association studies in cashew (Anacardium occidentale L.). Sci. Hortic. 255: 108-114. 2. Bhat, M.G., Thimmappaiah, S., Sundararaju, D. and Swamy, K.R.M. 2005. Experimental manual on cashew. Directorate of Cashew Research, Puttur, India. 3. Burton, G.N. and Devane, E.M. 1953. Estimating heritability in fall fescue (Festuca arundiancea L.) from replicated clonal materials. Agron. J. 45: 478-481. 4. Chaithra, K., Bhoomika, H.R., Veena, G.L., Dushyantha Kumar, B.M., Shivaprasad, M. and Ravi, C.S. 2022. Correlation and path coefficient analysis for yield and yield attributing traits in cashew (Anacardium occidentale L.) genotypes. Biol. Forum 14: 935-937. 5. Chandrasekhar, M., Sethi, K., Tripathy, P., Das, T.R., Dash, M. and Roy, A. 2018. Studies on variability, heritability and genetic advance for quantitative and qualitative traits in cashew (Anacardium occidentale L.). e-planet 16: 139- 146. 6. Gomez, K.A. and Gomez, A.A. 1984. Statistical procedures for agricultural research. 2nd Edition, John Wiley and Sons, New York, 680 p. 7. Johnson, H.W., Robinson, H.F. and Comstock, R.E. 1955. Estimates of genetic and environmental variability in soybean. Agron. J. 47: 314- 318. 8. Miller, P.A., Williams, J.C., Robinson, H.F. and Comstock, R.E. 1958. Estimates of genotypic variances and co-variances in upland cotton. Agron. J. 50: 126-131. 9. Mohapatra, M., Dash, D.K., Tripathy, P., Sethi, K., Dash, M. and Roy, A. 2018. Studies on variability, heritability and genetic advance in cashew (Anacardium occidentale L.). Trends in Biosci. 11: 120-125. 10. 1Preethi, P., Savadi, S., Vanitha, K., Ramteke, V., Mangalassery, S. and Sandesh, M. S. 2021. Cashew (Anacardium occidentale L.) In: Tropical Fruit Crops: Theory to Practical, Vol. I. S.K. Ghosh and R.R. Sharma (Eds.), Jaya Publishing House, New Delhi, p. 138. 11. Ramteke, V., Paikra, M.S., Netam, R.S., Kerketta, A., Nirala, Y., Singh, D.P., Veena, G. L., Adiga, J. D., Mohana, G. S. and Raviprasad, T. N. 2024. Genetic variability, trait association, and path analysis studies for nut yield and yield-related traits in cashew (Anacardium occidentale L.). J. Agric. Sci. Technol. 26: 403-414. 12. Ramteke, V. 2022. Evaluation of cashew (Anacardium occidentale L.) genotypes for nut yield traits in south Chhattisgarh, India. Bangladesh J. Bot. 51: 179–184. 13. Sethi, K., Lenka, P.C. and Tripathy, S.K. 2016. Correlation and path coefficient analysis of nut yield and ancillary component traits in cashew. J. Plant. Crops 44: 119-123. 14. Sethi, K., Dash, M. and Tripathy, P. 2020. Character association and multivariate analysis in cashew (Anacardium occidentale L.). Int. J. Biores. Stress Manag. 11: 64-72. 15. Yadawad, A., Maruthesh, A.M. and Nishmitha, K. 2024. Genetic variability studies of diverse cashew (Anacardium occidentale L.) cultivars for growth and yield parameters in coastal zone of Karnataka. Electron. J. Plant Breed. 15: 972-978.
References
Similar Articles
- Ruchi Bist, K. Pathak, D. Hatwal, H. Punetha, A.K. Gaur, In vitro propagation of Aconitum balfourii Stapf: A rare medicinal herb of the alpine Himalayas , Indian Journal of Horticulture: Vol. 68 No. 03 (2011): Indian Journal of Horticulture
- Ankit Singh, Manish Srivastav, A.K. Singh, A.K. Dubey, S.K. Lal, Flowering attributes of parental mango genotypes , Indian Journal of Horticulture: Vol. 71 No. 4 (2014): Indian Journal of Horticulture
- C.S. Maiti, Correlation and path coefficient analysis for some morphological and biochemical constituents of jackfruit genotypes , Indian Journal of Horticulture: Vol. 67 No. 02 (2010): Indian Journal of Horticulture
- Pradeep Kumar, M.M. Syamal, Character association studies in bottle gourd , Indian Journal of Horticulture: Vol. 67 No. Special Issue (2010): Indian Journal of Horticulture
- G. Ashok Kumar, A. Jayajasmine, S.T. Bini Sundar, K. Elayaraja, S. Vasanth, Ex-situ evaluation of genetic diversity in indigenous Nerium accessions , Indian Journal of Horticulture: Vol. 81 No. 01 (2024): Indian Journal of Horticulture
- Priyanka Dahiya, Kiran Kour, Parshant Bakshi, Sarabdeep Kour, D.B. Singh, Bharat Bhushan, Correlation and path analysis using growth, flowering, fruiting and biochemical parameters in cape gooseberry , Indian Journal of Horticulture: Vol. 79 No. 02 (2022): Indian Journal of Horticulture
- Minimol J.S., Prasannakumari Amma, Suma B., Shahanas E., Breeding cycle of fifth generation inbred of cocoa and performance analysis of progenies over generations , Indian Journal of Horticulture: Vol. 72 No. 04 (2015): Indian Journal of Horticulture
- T.K. Hazarika, Baby Lalawmpuii, B.P. Nautiyal, Studies on variability in physico-chemical characters of hatkora (Citrus macroptera Mont.) collections of Mizoram , Indian Journal of Horticulture: Vol. 70 No. 04 (2013): Indian Journal of Horticulture
- T. K. Hazarika, Laltluangkimi ., Physico-chemical characterization of wild and semi wild Indian gooseberry from Mizoram, North-East India , Indian Journal of Horticulture: Vol. 76 No. 04 (2019): Indian Journal of Horticulture
- P. Durai, S. Uma, M.S. Saraswathi, N. Jayabalan, M.M. Mustaffa, Assessment of phylogenetic lineage of landraces (AA) and wild Musa acuminata Colla. through morphotaxonomic traits and microsatellite markers , Indian Journal of Horticulture: Vol. 70 No. 04 (2013): Indian Journal of Horticulture
<< < 26 27 28 29 30 31 32 33 34 35 > >>
You may also start an advanced similarity search for this article.
Most read articles by the same author(s)
- Vikas Ramteke, A. Sanadya, Narendra Kumar, A. K. Kerketta, Thermal requirement for phenophases of mango varieties in the sub-humid tropics of east-central India , Indian Journal of Horticulture: Vol. 79 No. 4 (2022): Indian Journal of Horticulture
