T.A. Faldu1, Ashwin Trivedi2* and N.A. Patel3
1B. A. College of Agriculture, AAU, Anand, Gujarat, 388110
2ICAR-Directorate of Medicinal & Aromatic Plants Research,Anand, Gujarat
3Main Vegetable Research Station, AAU, Anand, Gujarat
Email: aptrivedi2004@gmail.com
Received-25.12.2023, Revised-14.01.2024, Accepted-25.02.2024
Abstract: Onion (Allium cepa L.) is a significant commercial vegetable crop cultivated across diverse climatic regions globally, including tropical, subtropical, and temperate zones. In India, it holds agricultural and medicinal significance, being utilized for culinary purposes and as a component in traditional medicine formulations. This study aimed to investigate the interrelationship between various morphological and physiological traits in onion plants. The experiment was conducted using a Randomized Block Design (RBD) with twelve treatments and three replications. The analysis of the results indicated a highly significant positive correlation between marketable yield and growth parameters such as plant height, number of leaves, and leaf length. Additionally, there was a positive correlation with yield components including polar diameter, equatorial diameter, and average bulb weight, as well as various quality parameters such as TSS, reducing sugars, total soluble sugars, total phenols, and pyruvic acid. Plant height in onions was positively correlated with different growth parameters, such as the number of leaves, leaf length, and total dry matter. It also showed a positive correlation with yield components like polar diameter, equatorial diameter, average bulb weight, and marketable yield. Furthermore, the polar diameter of the bulb was positively correlated with TSS, total sugars, and total phenols.
Keywords: Correlation, Onion, Marketable yield, TSS
REFERENCES
Ananthan, M. and Balakrishnamoorthy, G. (2007). Genetic variability and correlation studies in onion for economic dry matter yield. Agricultural Science Digest, 27 (3), 190-193.
Anonymous(2020). National Horticulture Database. National Horticultural Board, Gurgaon.
Ashok, P., Sasikala, K. and Netra, P. (2013). Asssociation among growth characters, yield and bulb quality in onion. International Journal of Farm Sciences, 3 (1), 22-29.
Dewangan, S. R. and Sahu, G. D. (2014). Genetic variability, correlation and path coefficient analysis of different kharif onion genotypes in chhattisgarh plains. Agricultural Science Digest, 34 (3), 233-236.
Dhotre, M., Allolli, T. B., Athani, S. I. and Halemani, L. C. (2010). Genetic variability, character association and path analysis studies in kharif onion. The Asian Journal of Horticulture, 5 (1), 143-146.
Ghetia, J. M. and Singh, S. P. (2000, November). Genetic variability correlation and path coefficient analysis in onion. (Allium cepa L.). Paper presented at National symposium on Onion and Garlic production and post harvest management challenges and strategies, Maharashtra, India.
Gurjar, R. S. and Singhania, D. L. (2006). Genetic variability, correlation and path analysis of yield and yield components in onion. Indian Journal of Horticulture, 63 (1), 53-58.
Mahanthesh, B., Harshavardhan, M., Thippesha, D., Sajjan, M. R. P. and Janardhan, G. (2007). Correlation studies in onion genotypes in kharif season under irrigated and rainfed situations. Asian Journal of Horticulture, 2 (2), 71-74.
Manjunathagowda, D. C. and Anjanappa, M. (2021). Genetic variability studies for yield and yield contributing traits in onion (Allium cepa L.). Vegetos, 34,174-182.
Pramanik, K., Tripathy P., Mandal, P., Pradhan, M. and Biswal, M. (2018). Effect of micronutrients on quality of onion (Allium cepa L.). International Journal of Chemical Studies, 6 (6), 1324-1327.
Pujar, U.U., Jagadeesha, R.C., Gangadharappa, P.M., Chavan, M.L., Shankarappa, S. and Jayappa, J. (2019). Genetic variability and correlation studies in onion (Allium cepa L.) genotypes. Journal of Pharmacognosy and Phytochemistry, 8(6), pp.2242-2247.
Rajya Lakshmi, R. (2015). Studies on genetic variability, correlation and path analysis of yield and yield components in onion. Journal of Horticultural Sciences, 10 (2), 237-241.
Rangaswamy, R. (2010). A textbook of agricultural statistics (2nd ed.). New Delhi, India: New Age International Publishers.
Singh, R. K., Bhonde, S. R. and Gupta, R. P. (2011). Genetic variability in late kharif (Rangada) onion. Journal of Applied Horticulture, 13 (1), 74-78.
Sood, V. (2000). Screening of early maturity dark onion (Allium cepa L.) genetypes for rangda (Late kharif) season. M. Sc. Thesis, MPKV, Rahuri (MS).
Tomar, A. (2016). Antiseptic property of Allium cepa Linn. (Piyaz) in Uttar Pradesh. Van Sangyan, 3(10):40-42.
Trivedi, A. P., Dhumal, K. N. and Lawande, K. E. (2006). Estimates of heritability, genetic advance and correlation between yield and its components in onion. Indian Journal of Genetics and Plant Breeding, 66 (1), 59-60.
Trivedi A.P., Dhumal, K.N. and Lawande, K.E. (2006a). Genetic variability, correlation andpath analysis study in storage life of onion (Allium cepa L.). Indian Journal of Genetics and Plant Breeding, 66(4):349-350.