Soft wood grafting - A novel and rapid multiplication technique in Coorg mandarin (Citrus reticulate Blanco)

Authors

  • B M Muralidhara Author
  • IN Doreyappa Gowda Author

DOI:

https://doi.org/10.24154/jhs.v14i1.707

Keywords:

Coorg mandarin,, Rangpur lime,, Soft wood grafting,, success rate

Abstract

Coorg mandarin is commercially multiplied by shield or T budding. The process of shield budding will takes eighteen to twenty months for the production of quality planting material. Hence present experiment was conducted to standardize soft wood grafting in Coorg mandarin to reduce the nursery phase for rapid multiplication of quality planting materials. In this study, two to three months old terminal shoots of Coorg mandarin were grafted on one, two, three and four months old rootstocks of Rangpur lime.The soft wood grafting on three and four months old rootstocks were recorded cent per cent graft success and higher plant survivability (98%) and minimum was noticed in one month old rootstocks. The plant height (45.77 cm), plant girth (0.60 cm), number of leaves per plant (42.9), number of side shoots per plant (5.65), root length (33.15 cm) and root spread (8.29 cm)
were also found maximum on four months old root stocks followed by three month old rootstocks. Age of rootstocks have significant difference (P=0.05) for plant weight, shoot weight and root weight in both fresh and dry weight basis.The above findings revealed that, four months old rootstocks are more suitable for soft wood grafting in terms of graft success and plant traits. Soft wood grafting can be gainfully exploited for rapid multiplication of good quality planting material by reducing the nursery phase.

References

Alam, N., Naveed, F., Khan M.M., Abbas, M. and Ahmad, S. 2006. Early age propagation of three commercial Citrus species through microbudding technique. Pak. J. Agri. Sci., 43: 42-44.

Deshmukh, N.A., Patel, R.K., Krishnappa, R., Verma, B.C., Rymbai, H., Assumi, S.R., Lyngdoh, P., Jha, A.K. and Malhotra, S.K. 2017. Influence of rootstock age and propogation methods on scion physiology and root morphology of Khasi mandarin (Citrus reticulata). Ind. J. Agri. Sci., 87: 203-209

Dubey, A.K., Mishra, M. and Yadav, D.S. 2004. Softwood grafting in Khasi mandarin (Citrus reticulata Blanco). Ind. J. Hort. Sci.,61: 263–4.

EI-Motty, E.Z.A., Metwally, S.E., Abou, Y.R. and Farahat, S.A. 2010. Studies on growth, nutritional and microbiological status of citrus seedlings infested with root-rot disease. Nat. Sci.,8: 112–21

Hartmann, H.T., Kester, D.E., Davies, F.T. and Geneve, R.L. 1997. Plant Propagation: Principal and Practices, 8th Edn, pp 770. Prentice Hall of India Pvt Ltd, New Delhi.

Kadam, J.H., Karale, A.R., Garad B.V. and Desai, U.T. 2007. Micro-grafting in wood apple. In: Recent Trends in Horticultural Biotechnology, RaghunathKeshvachandran (Eds.), New India Publishing Agency, New Delhi, pp. 371-73

Karunakaran, G. Ravishankar, H., Sakthivel, T and Samuel, D.K. 2014. Optimization of micro- budding technique in Coorg mandarin (Citrus reticulata Blanco). Ind. J. Hort.,71: 311-314

Mazhar, A., Khan, M.M., Mughal, S.M., Jaskani, M.J. and Haider, A. 2006. Propagation of CTV free sweet orange [Citrus sinensisOsb.] plants through microbudding technique. Pak. J. Bot.,38: 583-87

Ochoa, P.M., Dekkers, M.G.H., Skaria, M. and Lee, R.F. 2000. Use of microbudding to expedite production of experimental citrus hosts for use for biological indexing of citrus pathogens. In: ISC Congress, Orlando, Florida, pp., 129

Patel, R.K., Babu, K.D. and Akath Singh 2010. Soft wood grafting in mandarin (Citrus reticulata Blanco): A novel vegetative propagation technique. Int. J. F. Sci., 10:54-64

Perez-alfocea, F., Albacete, A., Ghanem, M.E. and Dodd, I.A. 2010. Hormonal regulation of source and sink relations to maintain crop productivity under salinity: a case study of root to shoot signaling in tomato. Functional Pl. Bio.,37:592–603

Qiang, S.W., Ying, N.Z. and Xin, H.H. 2010. Contributions of arbuscularmycorrhizal fungi to growth, photosynthesis, root morphology and ionic balance of citrus seedlings under salt stress. Acta Physiol. Plant.,32:297–304

Skaria, M. and Zhang, T. 2000. Field performance of micro-budded citrus trees in Texas. In: ISC Congress, Orlando, Florida, pp. 130

Skene, D.S., Shepherd, H.R. and Howard, B.H. 1983. Characteristic anatomy of union formation in budded fruit and ornamental tree. J. Hort. Sci.,58:295–299

Vijayakumari, N. and Singh, S. 2003. Standardization of microbudding technique in citrus. Ind. J. Hort. Sci.,60: 127-30

Vijayakumari, N., Singh, S. and Thote, S.G. 2008. Application of micro-budding: A faster propagation technique in citrus. J. Soils and Crops,18: 89-91

Vijayakumari, N., Singh, S., Ghosh, D.K., Das, A.K. and Dhurjati, T. 2001. Performance of microbudding under different greenhouse structures in Citrus reticulata cv. Nagpur mandarin. South Ind. Hort.,49: 335-37

Wang, Y. and Kollmann, R. 1996. Vascular differentiation in the graft union of in vitro grafts with different compatibility. J. Plant Physiol., 147: 521-33

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Published

30-06-2019

Issue

Section

Research Papers

How to Cite

Muralidhara, B. M., & Gowda, I. D. (2019). Soft wood grafting - A novel and rapid multiplication technique in Coorg mandarin (Citrus reticulate Blanco). Journal of Horticultural Sciences, 14(1), 7-12. https://doi.org/10.24154/jhs.v14i1.707

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