Abstract
Pearl millet (Pennisetum glaucum (L.) R. Br.) cultivars for marginal, arid environments need to combine the adaptation to stress conditions of indigenous landraces with an improved yield potential and disease resistance, to allow them to both perform well in farmers fields and to meet the requirements for cultivar release. This paper evaluates landrace-based topcross hybrids (adapted landraces crossed on high-yielding male-sterile lines), as a quick and efficient way of achieving this objective. Topcross hybrids showed a consistent increase in biomass production across all test environments, including the harsh arid zone environments. Depending upon the plant type of the male-sterile used to make the hybrid, this was expressed as increased grain yield only, or increased grain and fodder yields. The downy mildew (Sclerospora graminicola) reaction of the topcross hybrids was determined by the reaction of the male-sterile line used, with the resistant male-sterile producing resistant topcross hybrids and vice-versa. Topcrossing adapted landraces on high-yielding male-sterile lines thus provides an opportunity to improve disease resistance and grain and/or fodder yields, with no apparent loss of adaptation to the marginal environments in which the landraces have evolved.
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References
AICPMIP (All India Coordinated Pearl Millet Improvement Project), 1988. Technology for Increasing Bajra Production in India. Indian Council of Agricultural Research, New Delhi.
Appa RaoS., M.H.Mengesha, K.L.Vyas & C.Rajagopal Reddy, 1986. Evaluation of pearl millet germplasm from Rajasthan. Ind. J. Agric. Sci. 56: 4–9.
AtlinG.N. & K.J.Frey, 1990. Selection of oat lines for yield in low productivity environments. Crop Sci. 30: 556–561.
BidingerF.R. & P.Parthasarathy Rao, 1990. Genetic and cultural improvements in the production of pearl millet. In: S.K.Sinha et al. (Eds) Proceedings of the International Congress of Plant Physiology. New Delhi, India. 15–20 Feb. 1988. Vol. 1. pp. 194–206. Society for Plant Physiology and Biochemistry, New Delhi.
BurtonG.W., 1952. Immediate effect of gametic relationship upon seed production in pearl millet, Pennisetum glaucum. Agron. J. 44: 424–427.
CSSA (Crop Science Society of America), 1984. Genetic Contributions of Yield Gains of Five Major Crop Plants, W.R.Fehr (Ed.). American Society of Agronomy, Madison, WI.
CeccarelliS., 1988. Increasing productivity in unfavorable conditions: philosophies, strategies, methodologies. In: Proceedings of the Workshop on Advanced Technologies for Increased Agricultural Production, September 25–29, 1988. pp. 167–176. Italian Association for International Development, Santa Maria Ligui, Italy.
CeccarelliS., 1989. Wide adaptation—How wide? Euphytica 40: 197–205.
CeccarelliS. & S.Grando, 1989. Efficiency of empirical selection under stress conditions in barley. J. Genet. & Plant Breed. 43: 25–31.
CeccarelliS., S.Grando & J.Hamblin, 1994. Relationship between barley yields measured in low- and high-yielding environments. Euphytica 64: 49–58.
FischerR.A., 1981. Optimizing the use of water and nitrogen in the breeding of crops. Plant & Soil 58: 249–278.
MahalakshmiV., F.R.Bidinger, K.P.Rao & D.S.Raju, 1992. Performance and stability of pearl millet topcross hybrids and their variety pollinators. Crop Sci. 32: 928–932.
MatlonP.J., 1985. A critical review of the objectives, methods and progress to date in sorghum and millet improvement: A case study of ICRISAT/Burkina Faso. In: H.W.Ohm & J.G.Nagy (Eds) Appropriate Technologies for Farmers in Semi-Arid West Africa, pp. 154–179. Purdue University, West Lafayette.
RichardsR.A., 1982. Breeding and selecting for drought resistance in wheat. In: Drought Resistance in Crops with Emphasis on Rice, pp. 303–316. International Rice Research Institute, Manila.
RosielleA.A. & J.Hamblin, 1981. Theoretical aspects to selection for yield in stress and non-stress environments. Crop Sci. 12: 943–946.
SAS Institute, 1985. SAS User's Guide. Statistics. Version 5. SAS Institute, Cary, NC.
SimmondsN.W., 1991. Selection for local adaptation in a plant breeding programme. Theor. Appl. Genet. 82: 363–367.
SinghS.D. & R.Gopinath, 1985. A seedling inoculation technique for detecting downy mildew resistance in pearl millet. Plant Dis. 69: 582–584.
Singh, S.D., S.B. King & J. Werder, 1993. Downy mildew disease of pearl millet. International Crops Research Institute for the Semi-Arid Tropics, Information Bulletin No. 37, Patancheru, A. P. 500 324, India.
SteelR.G.D. & J.H.Torrie, 1960. Principles and Procedures of Statistics, McGraw Hill Publishers, New York.
WeltzienE. & G.Fischbeck, 1990. Performance and variability of local barley landraces in near-eastern environments. Plant Breed. 104: 58–67.
WeltzienR. & J.R.Witcombe, 1989. Pearl millet improvement for the Thar desert. Rajasthan, India. Vorträge für Pflanzenzüchtung 15: 23–26.
Zavala-GarciaF., P.J.Bramel-Cox, J.D.Eastin, M.D.Witt & D.J.Andrews, 1992. Increasing efficiency of crop selection for unpredictable environments. Crop Sci. 32: 51–57.
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ICRISAT Journal Article no. 1575
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Bidinger, F.R., Weltzien, E., Mahalakshmi, R.V. et al. Evaluation of landrace topcross hybrids of pearl millet for arid zone environments. Euphytica 76, 215–226 (1994). https://doi.org/10.1007/BF00022166
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DOI: https://doi.org/10.1007/BF00022166
Key words
- Pennisetum glaucum
- pearl millet
- landrace cultivars
- topcross hybrids
- grain yield
- downy mildew
- renstance