The value of exotic wheat genetic resources for accelerating grain yield gains is largely unproven and unrealized. We used next-generation sequencing, together with multi-environment phenotyping, to study the contribution of exotic genomes to 984 three-way-cross-derived (exotic/elite1//elite2) pre-breeding lines (PBLs). Genomic characterization of these lines with haplotype map-based and SNP marker approaches revealed exotic specific imprints of 16.1 to 25.1%, which compares to theoretical expectation of 25%. A rare and favorable haplotype (GT) with 0.4% frequency in gene bank identified on chromosome 6D minimized grain yield (GY) loss under heat stress without GY penalty under irrigated conditions. More specifically, the ‘T’ allele of the haplotype GT originated in Aegilops tauschii and was absent in all elite lines used in study. In silico analysis of the SNP showed hits with a candidate gene coding for isoflavone reductase IRL-like protein in Ae. tauschii. Rare haplotypes were also identified on chromosomes 1A, 6A and 2B effective against abiotic/biotic stresses. Results demonstrate positive contributions of exotic germplasm to PBLs derived from crosses of exotics with CIMMYT’s best elite lines. This is a major impact-oriented pre-breeding effort at CIMMYT, resulting in large-scale development of PBLs for deployment in breeding programs addressing food security under climate change scenarios.
A replacement series study was conducted to evaluate the interference interactions between the weeds Phalaris minor or Rumex dentatus and wheat at two nutrient levels to test for changes in the competitive relationships of the weeds with varying nutrient availability. Plants were established in a mixture with proportions of 4:0, 3:1, 2:2, 1:3 and 0:4 (wheat: weed) plants per pot. The weeds exhibited clear differences in growth attributes and competition indices from wheat. Rumex dentatus showed significantly higher values for all growth attributes, relative yield, aggressivity and biomass. Both weeds performed better than wheat at high nutrient levels. Nutrient stress changed the intensity of competition between weeds and wheat, but did not change the weeds' positions in the hierarchy. Therefore, although the competitiveness of P. minor and R. dentatus appears to be lower under poor nutrient conditions, they outcompete wheat irrespective of nutrient availability. Overall, the findings of the study suggest that wheat is more susceptible to resource competition from R. dentatus than P. minor.
Stripe rust caused by Puccinia striiformis f. sp.
tritici (Pst) is one of the most devastating diseases of
wheat (Triticum spp.) worldwide. Indian isolates were
characterised based on their phenotypic reaction on differential hosts carrying
different Yr genes. Based on virulence/avirulence structure,
isolates were characterised into ten different pathotypes viz.
70S0-2, 67S64, 70S4, 66S0, 70S64, 66S64-1, 38S102, 47S102, 46S119, and 78S84.
These Indian pathotypes of P. striiformis f. sp.
tritici and 38 pathotypes of other rust species (P.
graminis tritici and P. triticina) were used in
this study to analyze their molecular phylogenetic relationship. The nucleotides
of rDNA-ITS, partial β-tubulin and ketopantoate
reductase genes of all the pathotypes were sequenced directly after
PCR. Based on sequence data of rDNA-ITS and β-tubulin, three
phylogenetic groups corresponding to three different species of
Puccinia were obtained. Asian isolates formed a distinct
evolutionary lineage than from those derived from USA. The sequence similarity
of Indian pathotypes with other Asian (China and Iran) isolates indicated the
same origin of pathotypes. The results will allow rapid identification of Indian
P.striiformis f. sp. tritici pathotypes
causing stripe rust in wheat, assist in making predictions regarding potential
rust pathotypes, and identifying sources of resistance to the disease in
advance.
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