000 03104nab a22004457a 4500
001 G97598
003 MX-TxCIM
005 20230519205010.0
008 211111s2012 ii |||p|op||| 00| 0 eng d
022 _a0975-6906 (Online)
022 0 _a0019-5200
040 _aMX-TxCIM
041 _aeng
090 _aCIS-6996
100 1 _aAgrawal, P.K.
_911616
245 1 0 _aGenetic variability and stability for kernel iron and zinc concentration in maize (Zea mays L.) genotypes
260 _aIndia :
_bIndian Society of Genetics and Plant Breeding,
_c2012.
500 _aPeer review
500 _aPeer-review: Yes - Open Access: Yes|http://science.thomsonreuters.com/cgi-bin/jrnlst/jlresults.cgi?PC=MASTER&ISSN=0019-5200
520 _aEvaluation of kernel iron (Fe) and zinc (Zn) of 67 diverse maize genotypes grown during 2006?08 indicated significant variation for both the micronutrients. Kernel Fe concentration during 2006 varied from 20.38?43.79 mg/kg, whereas the same ranged from 23.23?54.29 mg/kg and 29.22?49.24 mg/kg, during 2007 and 2008, respectively. Kernel Zn varied from 15.06?29.88 mg/kg, 7.01?22.01 mg/kg and 13.64?26.54 mg/kg, during 2006, 2007 and 2008, respectively. No correlation was observed between kernel Fe and Zn concentration in the selected set of maize genotypes. For Fe concentration, CM140 (43.79 mg/kg) was found to be the most promising genotype during 2006, with HP-3 (54.29 mg/kg) during 2007 and CM212 (49.24 mg/kg) during 2008 as the best genotype. In case of kernel Zn, BAJIM-06-6 (29.88 mg/kg), V336 (22.01 mg/kg) and BAJIM-06-10 (26.45 mg/kg) were identified to be the best genotype in 2006, 2007 and 2008, respectively. The study revealed significant genotypes x environment interaction for both kernel Fe and Zn concentration, of which kernel Fe was found to be affected more by the change of environmental conditions, while it was of less extent for kernel Zn.Taking into consideration of stability parameters V336,VQL5, CM139,VQL1, CM129, and V340 were observed to be stable and promising genotypes for kernel Fe concentration, while in case of kernel Zn,V336, BAJIM-0610,V340, BAJIM-06-7, CM129, and VQL1 were identified as the stable genotypes.
536 _aGlobal Maize Program
546 _aText in English
594 _aINT3057
595 _aCSC
650 7 _91173
_aMaize
_2AGROVOC
650 7 _91168
_aKernels
_2AGROVOC
650 7 _93544
_aIron
_2AGROVOC
650 7 _91315
_aZinc
_2AGROVOC
650 7 _91098
_aEnvironment
_2AGROVOC
650 7 _91128
_aGenetic stability
_2AGROVOC
700 1 _aJaiswal, S.K.
_920936
700 1 _aPrasanna, B.M.
_gGlobal Maize Program
_8INT3057
_9887
700 1 _aHossain, F.
_91455
700 1 _aSaha, S.
_91473
700 1 _aGuleria, S.K.
_91461
700 1 _9820
_aGupta, H.S.
_gBorlaug Institute for South As
_8I1706385
773 0 _tIndian Journal of Genetics and Plant Breeding
_gv. 72, no. 4, p. 421-428
_dIndia : Indian Society of Genetics and Plant Breeding, 2012.
_wG444352
_x0019-5200
856 4 _uhttps://hdl.handle.net/20.500.12665/944
_yAccess only for CIMMYT Staff
942 _cJA
_2ddc
_n0
999 _c29789
_d29789