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  • 1 Department of Plant Pathology, Assam Agricultural University, Jorhat - 785 013, India
  • | 2 Department of Plant Pathology, Assam Agricultural University, Jorhat - 785 013, India
  • | 3 Department of Plant Pathology, Assam Agricultural University Jorhat - 785 013, India
  • | 4 Department of Plant Pathology, Assam Agricultural University, Jorhat - 785 013, India
  • | 5 Department of Plant Pathology, Assam Agricultural University, Jorhat - 785 013, India
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Two highly resistant genotypes of wheat viz. HD 29 and DWL 5023 and one highly susceptible genotype WL 711 against Karnal bunt (KB) disease were studied for their difference in morphological features, growth para­meters and isozyme patterns. It revealed that both the resistant geno­types were bearing higher number of spikelets with short internodes in the spike as compared to the susceptible genotype. In contrast WL 711 had significantly higher number of stomata in sheaths, flag leaf base, booted glumes and rachis. The hair count was significantly high on the glumes and rachis of HD 29 and DWL 5023 than on WL 711. HD 29 possessed significantly narrow glume opening distance between lemma and palea followed by DWL 5023 and WL 711. Moreover, the period between ear emergence and anthesis was short in HD 29 followed by DWL 5023 and WL 711. Out of the twelve isozyme systems performed using seeds and seedlings of the genotypes, majority of them gave rise to comparatively higher number of bands in HD 29 and DWL 5023 than in WL 711. How­ever, specific band(s) for each genotype were very less. Cluster infor­ma­tion was the same for morphological data and isozymic banding patterns in Unweighted Pair Group Method with Arithmetic Averages (UPGMA) analysis where both the resistant genotypes together formed a cluster leaving susceptible genotype alone in a separate cluster. Comparison between morphological features and isozyme patterns of the wheat genotypes in relation to KB disease is discussed.

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Jenő KONTSCHÁN 
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Technical editor: Ágnes TURÓCI (Centre for Agricultural Research, Plant Protection Institute)

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  • Pál BENEDEK (Hungarian University of Agriculture and Life Sciences)
  • José Antonio Hernández CORTÉS (CEBAS – Spanish National Research Council)
  • Tibor ÉRSEK (Hungarian University of Agriculture and Life Sciences)
  • Wittko FRANCKE (University of Hamburg)
  • László HORNOK (Hungarian University of Agriculture and Life Sciences)
  • József HORVÁTH (University of Pannonia, Faculty of Georgikon)
  • Mehmet Bora KAYDAN (Cukurova University)
  • Zoltán KIRÁLY (Centre for Agricultural Research, Plant Protection Institute)
  • Levente KISS (University of Southern Queensland)
  • Karl-Heinz KOGEL (University of Giessen)
  • Jenő KONTSCHÁN (Centre for Agricultural Research, Plant Protection Institute)
  • Tamás KŐMÍVES (Centre for Agricultural Research, Plant Protection Institute)
  • László PALKOVICS (Hungarian University of Agriculture and Life Sciences)
  • Miklós POGÁNY (Centre for Agricultural Research, Plant Protection Institute)
  • James E. SCHOELZ (University of Missouri)
  • Stefan SCHULZ (Technical University of Braunschweig)
  • Andrzej SKOCZOWSKI (Pedagogical University of Kraków)
  • Gábor SZŐCS (Centre for Agricultural Research, Plant Protection Institute)
  • Miklós TÓTH (Centre for Agricultural Research, Plant Protection Institute)
  • Ferenc VIRÁNYI (Hungarian University of Agriculture and Life Sciences)
  • Pedro Díaz VIVANCOS (CEBAS – Spanish National Research Council)

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2020  
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Acta Phytopathologica et Entomologica Hungarica
Language English
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2020 Volume 55
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