A comparative evaluation of micro-propagated and seed derived plants of intergeneric papaya hybrids
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Carica papaya L, GIH, mother culture, PRSVIssue
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As papaya is susceptible to papaya ring spot virus (PRSV) disease, it is a challenging task to obtain the true-to-type plants with virus resistance. Hence, a comparative study using morphological traits, fruit traits and above all, resistance to PRSV of field established micro-propagated and seedling derived plants of intergeneric hybrid (IGH) (Carica papaya cv. Arka Surya × Vasconcellea cauliflora L.) was conducted to obtain virus resistant plants coupled with desired fruit traits. Plantlets were raised using shoot tips of seeding plants from selected advanced intergeneric papaya hybrids (IGH 4-13 and IGH 12-2) on MS media supplemented with 3% sucrose + BAP 1µM + GA3 1µM + IAA 0.1 µM; phytagel / gelrich 0.25%. Intergeneric hybrid plants (micro-propagated and seedling) were field planted and evaluated for sex determination, morphological traits, fruit traits and PRSV resistance. Micro-propagated IGH plants showed significant morphogenic difference, when compared to plants raised through seed like dwarf stature, bearing fruits lower on the stem, flowering at an early time and lower stem circumference, internode length and number of leaves. Among the tissue culture plants, derived from the same mother culture uniformity with respect to morphological, fruit, yield and PRSV tolerance were obtained indicating the identical production of quality plants as the mother culture. Based on the final scoring for PRSV tolerance, the micro-propagated plants viz., IGH.SD.3 and IGH.SD.4 showed field tolerance to PRSV coupled with desirable fruit traits. This evaluation study can facilitate breeders and growers to have disease-resistant papaya plants with desired fruit trait.Abstract
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Araya-Valverde, E., Bogantes, A., Holst, A., Vargas-Mora, C., Gómez-Alpízar, L., Brenes, A., Sánchez-Barrantes, E., Chavarría, M. and Barboza-Barquero, L. 2019. Field performance of hermaphrodite papaya plants obtained through molecular selection and micro-propagation. Crop Breed. Appl. Biotechnol. 19: 420-27. Bhattacharya, J. and Khuspe, S. S. 2001. In vitro and in vivo germination of papaya (Carica papaya L.) seeds. Sci. Hortic. 91: 39-49. Chan, L. K. and Teo, C. K. H. 2002. Micropropagation of Eksotika, a Malaysian papaya cultivar, and the field performance of the tissue culture derived clones. Acta Hortic. 575: 99-105. Deputy, J. C., Ming, R., Ma, H., Liu, Z., Fitch, M., Wang, M., Manshardt, R. and Stiles, J. L. Molecular markers for sex determination in papaya (Carica papaya L.). Theor. Appl. Genet. : 107-11. Dhanam, S. 2006. Studies on papaya ring spot disease, M.Sc. Thesis, Tamil Nadu Agricultural University, Coimbatore. Dinesh, M. R., Reddy, B. M. C. and Reena, N. A. 2001. Varietal improvement of papaya (Carica papaya L.). J. Appl. Hortic. 2: 121-23. Dinesh, M. R., Rekha, A., Ravishankar, K. V., Praveen, K. S. and Santosh, L. C. 2007. Breaking the intergeneric crossing barrier in papaya using sucrose treatment. Sci. Hortic. 114: 33-36. Dinesh, M. R., Veena, G. L., Vasugi, C., Reddy, M. K. and Ravishankar, K. V. 2013. Intergeneric hybridization in papaya for ‘PRSV’tolerance. Sci. Hortic. 161: 357-60. FAO (2019).FAOSTAT database collections. Fitch, M. M., Moore, P. H., Leong, T. C., Akashi, L. A. Y., Yeh, A. K., White, S. A. and Poland, L. J. 2005. Clonally propagated and seed-derived papaya orchards: I. Plant production and field growth. HortSci. 40: 1283-90. Gatambia, E. K., Kihurani, A. W., Rimberia, F. K. and Waiganjo, M. M. 2016. Evaluation of growth rate and phenotypic traits of meristem-cultured papaya plants. J. Exp. Agric. Intl. 14: 1-8. Jayavalli, R., Balamohan, T. N., Manivannan, N., Rabindran, R., Paramaguru, P. and Robin, R. 2015. Transmission of resistance to papaya ringspot virus (PRSV) in intergeneric populations of Carica papaya and Vasconcellea cauliflora. Sci. Hortic. 187: 10-14. Jimenez, H. and Horovitz, S. 1957. Cruzabilidad entree species de Carica. Agronomia Trop. 7: –15. Kaluram, Vasugi, C., Thomas, P., Dinesh, M.R. and Nandeesha, P. 2022. Sex determination of papaya plants derived from seed and micropropagation. Indian J. Hortic. 79: 3-8. Murashige, T. and Skoog, F. 1962. A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiol. Plant. 15: 473- NHB 2018. Year book of the National Horticultural Board, GOI, 2017-18. Pandey, R. M. and Singh, S. P. 1988. Field performance of in vitro raised papaya plants. Ind. J. Hortic. 45: 1-7. Patil, P., Vastrad, N., Dinesh, M. R. and Bantwal, A. R. 2007. A revised protocol for in -vitro propagation of Carica papaya using lateral buds from field-grown trees. J. Hortic. Sci. 2: 99-103. Soomark, S. and Tai, E. A. 1975. Vegetative propagation of papaya by budding. Acta Hortic. : 85-90. Storey, W. B. 1953. Genetics of the papaya. J. Hered. 44: 70-78. Thomas, P. and Kumari, S. 2010. Inconspicuous endophytic bacteria mimicking latex exudates in shoot-tip cultures of papaya. Sci. Hortic. 124: -74. Villegas, V. N. and Valencia, L. D. 1998. Comparative performance of micro-propagated and conventionally seed-derived Sinta’ hybrid papaya. Philipp J. Crop Sci. 23: 13-19. Zaman, A., Islam, R. and Joarder, O. I. 1997. Field performance and biochemical evaluation of micro-propagated mulberry plants. PCTOC. 51: -64.
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