000 02194nab a22003257a 4500
001 G90979
003 MX-TxCIM
005 20230828211520.0
008 121211b |||p||p||||||| |z||| |
040 _aMX-TxCIM
090 _aCIS-5395
100 1 _aAkin, B.
_91340
245 0 0 _aField resistance of wheat (Triticum aestivum L.) genotypes from different countries to leaf rust (Puccinia triticina)
260 _c2008
340 _aComputer File|Printed
500 _aPeer-review: Yes - Open Access: Yes|http://science.thomsonreuters.com/cgi-bin/jrnlst/jlresults.cgi?PC=MASTER&ISSN=1300-011X
520 _aPuccinia triticina causes leaf rust in wheat and results in severe yield losses in mild wheat growing areas of Turkey: Thrace, Marmara, Mediterranean, and Çukurova. A feasible way to avoid any damage is to grow slow rusting cultivars. We evaluated 94 wheat genotypes from different countries and 39 leaf rust differentials for their reactions to leaf rust field epidemics. Slow rusting, though, requires both the prediction of Lr genes in the greenhouse and an effective screening of genotypes against the leaf rust field epidemics; the evaluation at the sites regularly favoring leaf rust epidemics like Adapazari is also possible. Various resistance genes, excluding Lr13, Lr14a, Lr14b, Lr11, Lr30, and Lr32, were still effective and many genotypes, excluding 16, 19, 49, 53, 74, 56, 61, 68, 46, 71, 5, 47, and 48, had various levels of resistance indicated by lower AUDPC%. Utilizing leaf rust effective genes in wheat breeding programs and growing resistant cultivars on a large scale would most likely decrease leaf rust related yield and quality losses.
536 _aGlobal Wheat Program
546 _aEnglish
594 _aCBAK01
650 7 _aLeaves
_2AGROVOC
_98838
650 7 _aRusts
_2AGROVOC
_91251
650 7 _aWheat
_2AGROVOC
_91310
651 7 _2AGROVOC
_93716
_aTürkiye
700 1 _aOzseven, I.,
_ecoaut.
_91346
700 1 _aZencirci, N.,
_ecoaut.
773 0 _tTurkish Journal of Agriculture and Forestry
_n635351
_gv. 32, no. 6, p. 479-486
856 4 _yAccess only for CIMMYT Staff
_uhttp://libcatalog.cimmyt.org/download/cis/G90979.pdf
942 _cJA
_2ddc
999 _c27200
_d27200