AbstractIn field and laboratory tests the wheat midge, Sitodiplosis mosellana (Géhin), oviposited and developed on all 43 accessions of 17 species of diploid, tetraploid, and hexaploid wheats, Triticum L. spp. Ancestral diploid wild wheats had the lowest infestations among species in the genus, and two hexaploid species, Triticum sphaerococcum Percival and Triticum zhukovskyi Men. and Er., were more heavily infested than common wheat, Triticum aestivum L. In five lineages recognized in the genus, infestation increased in association with domestication, although not always in a continuous way. The level of infestation was not related to seed size or the number of seeds in spikes. Wheat species with free-threshing seeds and compact spikes were more infested by larvae than ancestral wheat species with less compact spikes and glumes that were either affixed to or pressed tightly against the seed. An association between glume tightness and spike compactness may explain the positive correlation between susceptibility and spike compactness. Domestication increased the susceptibility of crop wheats to wheat midge, possibly because the free-threshing trait affects the suitability of the glume–seed interface for oviposition and establishment of larvae on the seeds. The ancestral cultivated wheats, Triticum spelta L. and Triticum dicoccoides Körn., are promising sources of resistance to wheat midge because they have the same genomes as modern wheats and relatively low susceptibility. One free-threshing accession of Triticum dicoccum Schrank had relatively low susceptibility to wheat midge and may provide a source of resistance.
EFFECT OF GPC-B1 GENE ALLELE STATE ON ADAPTATION OF TRITICUM
DICOCCOIDES AND TRITICUM AESTIVUM PLANTS TO ZINC DEFICIENCY
