Vegetative vigour, yield and field tolerance to leaf rust in four F1 hybrids of coffee (Coffea arabica L.) in India
DOI:
https://doi.org/10.24154/jhs.v16i2.968Keywords:
Coffee, F1 hybrids, durable resistance, pyramiding, SH3 geneAbstract
Four F1 hybrids of arabica coffee (Coffea arabica L.) developed with the primary objective of pyramiding the SH3 gene for leaf rust resistance in a commercial variety ‘Chandragiri’ for achieving the long-lasting resistance to leaf rust, have been evaluated in field. Two hybrids (S.5083 and S.5084) were derived from a donor heterozygous to SH3, while the other two hybrids (S.5085 and S.5086) were developed from donor homozygous to SH3. Among the hybrids, S.5086 recorded superior yield performance during individual years with a maximum yield of 1611 kg/ha during 2020-21 and the four year mean yield of 1313 kg/ha. The hybrid exhibited maximum heterosis over mid parent (29.10%) and better parent (17.12%) and S.5086 progeny also manifested high field tolerance to leaf rust pathogen as the entire plant population was free from the disease incidence throughout the study period. The findings of the present study established the efficiency of F1 breeding strategy with simultaneous pyramiding of rust resistance genes for development of vigorous, high yielding and durable rust resistant F1 hybrids in arabica. The F1 hybrid, S.5086 with promising performance in terms of crop yield and high field tolerance to leaf rust has potential implications for commercial exploitation.
References
Anonymous. 2014. Coffee Guide, Coffee Board, Bangalore, India, p 262.
Bertrand, B.H., Etienne, C.C., Charrier, A. and Baradat, P. 2005. Coffea arabica hybrid performance for yield, fertility and bean weight. Euphytica 141 (3): 255-262.
Bettencourt, A. J. and Rodrigues Jr., C. J. 1988. Principles and practice of coffee breeding for resistance to rust and other diseases. p 199-235. In Coffee Vol.4 Agronomy. Clarck, R.J. Macrae, R. (Eds.). Elseviers Applied Science.
Dula Geneti. 2019. Review on heterosis and combining ability study for yield and morphological characters of coffee (Coffea arabica L.) in Ethiopia. Journal of Environment and Earth Science 9: 24-29.
Eskes, A.B. 1989. Resistance. p 171-277. In Coffee Rust: Epidemiology, Resis tance and Management. Kushalappa, A.C. and Eskes, A.B. (Eds.) Boca Raton FL, USA. CRC Press.
Eskes, A.B. and Braghini, M. 1981. Assessment methods for resistance to coffee leaf rust (Hemileia vastatrix Berk. et Br.). Pl. Prot. Bull. FAO 29:56-66.
Fazuoli, L.C., Oliveira, A.C.B., Toma-Braghini. M. and Silvarolla. M.B. 2005. Identification and use of sources of durable resistance to coffee leaf rust at the IAC. p 137-185. In Durable resistance to coffee leaf rust. Zambolim, L., Zambolim, E.M. and Várzea, V.M.P. (eds) UFV, Viçosa.
Gomez, K.A. and Gomez, A.A. 1984. Statistical procedure for agricultural research. John- Wiley and Sons Inc., New York. p 680.
Mesfin, A. and Bayetta, B. 1983. Heterosis in crosses of indigenous coffee (Coffea arabica L.) selected for yield and resistance to coffee berry disease II - First three years. Ethiopian Journal of Agricultural Science 5: 13-21.
Mistro, J., Fazuoli, L.C., Gallo, P., Oliveira, A.C.B., Toma-Braghini, M. and Silvarolla, B. 2007. Estimates of genetic parameters in arabica coffee derived from the Timor hybrid. Crop breeding and applied biotechnology 7: 141-147.
Pereira, A.A., Sakiyama, N.S., Zambolim, L., Moura, W.M., Zambolim, E.M. and Caixeta, E.T. 2005. Identification and use of sources of durable resistance to coffee leaf rust in the UFV/EPAMIG breeding program. In Durable resistance to coffee leaf rust. Zambolim, L., Zambolim, E.M. and Várzea, V.M.P. (eds) UFV, Viçosa. p 215-232.
Prakash, N.S., Ganesh, D. and Bhat, S.S. 2005. Population dynamics of coffee leaf rust (Hemileia vastatrix Berk et Br.) and recent advances in rust research in India. In Durable resistance to coffee leaf rust. Zambolim, L., Zambolim, E.M. and Várzea, V.M.P. (eds) UFV, Viçosa. p 411 – 442.
Prakash, N.S., Laxmi, V.V.K.M., Reddy, A.G.S.M., Sreenivasan, M.S., Bhaskar Reddy, K., Vinodkumar, P.K., Srinivasan, C.S., Santaram, A., Ramamurthy, N. and Jayarama. 2006. Breeding for durable rust resistance in coffee (Coffea arabica) – Field performance of some tetraploid inter-specific hybrid derivatives in India. In Proceedings of the 21st International conference on Coffee Science (ASIC 2006), held at Montpellier, France, from 10-15, Sept.2006. p 844-853.
Rodrigues, W., Vieira, H.D., Barbosa, D.H.S.G., Filho, G.R. and Partelli, F. 2014. Agronomic performance of arabica coffee genotypes in northwest Rio de Janeiro State. Genetics and molecular research 13: 5664-5673.
Rodrigues Jr, C.J., Varzea, V.M., Godinho, I.L., Palma, S. and Rato, R.C. 1993. New physiological races of Hemileia vastatrix. In Proceedings of the 15th ASIC colloquium (Montpellier), ASIC, Paris, France, p 318-321.
Sera, G.H., Sera, T., Ito, D.S., Azevedo, J.A., Mata, J.S., Doi, D.S. and Ribeiro-Filho, C. 2007. Resistance to leaf rust in coffee carrying SH3 gene and other SH genes. Brazilian Archives of Biology and Technology 50: 753-757.
Shigueoka, L., Sera, G., Sera, T., Fonseca, I., Mariucci, J., Valdir, A., Elder, C.F., Gardiano, C. and Carducci, F. 2014. Selection of arabica coffee progenies with rust resistance. Crop Breeding and Applied Biotechnology 14: 88-93.
Vishveshwara, S. 1974. Periodicity of Hemileia in arabica selection – S.795. Indian Coffee 38:49–51
Wagner, M. and Bettencourt, A.J. 1965. Inheritance of reaction to Hemileia vastatrix Berk & Br. in Coffea arabica L. In Progress report 1960-65, Coffee Rusts Research Center, Oeiras, Portugal. p 121-123.
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