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Rice Genomics and Genetics 2013, Vol. 4, No. 5, 22-27
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Eberhart S.A. and Russell W.A., 1966, Stability parameters for
comparing varieties, Crop Science, 6: 36-40
http://dx.doi.org/10.2135/cropsci1966.0011183X00060001
0011x
Gauch H.G. Jr., 1988, Model selection and validation for yield
trials with interaction, Biometrics, 44: 705-715
http://dx.doi.org/10.2307/2531585
Gauch H.G.Jr., 1992, Statistical Analysis of Regional Yield
Trials: AMMI Analysis of Factorial Designs, Elsevier,
Amsterdam, pp.1-278
Gabriel K.R., 1971, Bi-plot display of multivariate matrices
with application to principal components analysis,
Biometrika, 58: 453-467
http://dx.doi.org/10.1093/biomet/58.3.453
Hanson G.R., 1970, Genotypic stability, Theoretical and
Applied Genetics, 40: 226-231
http://dx.doi.org/10.1007/BF00285245
Jink J.L. and Hayman B.I., 1955, The analysis of diallel crosses,
Maize Genetics Coop, News Letter, 27: 48-54
Lafitte H.R. and Courtois B., 2002, Interpreting cultivar ×
Environment Interactions for yield in upland rice:
Assigning value to drought adaptive traits, Crop Science,
42: 1409-1420
http://dx.doi.org/10.2135/cropsci2002.1409
Lin C.S., Binns M.R. and Lafkovitch L.P., 1986, Stability
analysis: where do we stand? Crop Science, 26: 894-900
http://dx.doi.org/10.2135/cropsci1986.0011183X00260005
0012x
Mall C.N. and Sharma M.Ki., 2005, Genotype × environment
interaction effects on yield of rainfed lowland rice,
(Oryza
sativa
) varieties, Indian Journal of Genetics and Plant
Breeding, 65(2): 125-126
Nadarajan N. and Gunasekaran L.M., 2005, Quantitative
genetics and biometrical techniques in plant breeding,
Kalyani publishers, New Delhi, pp.223-241
Naidu B.S., Joshi M.S., Badralah Khan T.A. and Jayakumar,
1980, IET 2490 and IET 2730 have high grain yield
stability, Current Research, UAS, Bangalore, 9(9):
148-149
Poonyarth M., Sumantaradon K. and Aswasophenkul A., 1980,
Yield stability of 14 rice (
Oryza sativa
L.) varieties and
promising lines, Kasetsael Journal, 14(2): 7-16
Ouk M., Basnayake J., Tsubo M., Fukai S., Fischer K.S., Kang
S., Men S., Thun V. and Cooper M., 2007,
Genotype-by-environment interactions for grain yield
associated with water availability at flowering in rainfed
lowland rice, Field Crops Research, 101: 145-154
http://dx.doi.org/10.1016/j.fcr.2006.10.003
Stanley Omar, Samonte P.B., Wilson L.T., Mcclung A.M. and
Medley J.C., 2005, Targeting cultivars onto Rice growing
environments using AMMI and SREG GGE bi-plot
analyses, Crop Science, 45: 2414-2424
http://dx.doi.org/10.2135/cropsci2004.0627
Sudin V.M., 1985, The Adaptability and Stability of Plant
Height among Rice Varieties, Selethigai Semenovoditro,
Ussr, 2: 11-12
Tang W.T., and Tai C.C., 1975, An analysis of stability of yield
as breeding criterion of rice, Journal of Agricultural
Association, 91: 1-6
UAS Dharwad, 2009, Package of Practice for Rice: University
of Agricultural Sciences, Dharwad
Vijaykumar C.H.M., Ahmed Ilyas M., Viraktamath B.C.,
Balkrishnan R. and Ramesha M.S., 2001, Genotype ×
environment interaction effects on yield of rice hybrids in
India, Indian Journal of Genetics and Plant Breeding, 61:
101-106
Wade L.J., 1999, Critical characteristics of rainfed rice
environments and Implications for rice improvement, In:
Ito O., O’Toole J., and Hardy B., (eds.), Genetic
Improvement of Rice for Water-limited Environments,
International Rice Research Institute, Philippines, pp.1-22
Zobel R.W., Wright M.J. and Gauch H.G., 1988, Statistical
analysis of a yield trial, Agron J., 80: 388-393
http://dx.doi.org/10.2134/agronj1988.00021962008000030
002x