The production and identification of a complete set of intact Aegilops geniculata chromosome and telosome additions to common wheat is described. All Ug and Mg genome chromosomes were tentatively assigned to their homoeologous groups based on C-banding, meiotic metaphase I pairing analyses and plant morphologies. Thirteen disomic and one monosomic wheat-Ae. geniculata chromosome additions were identified. Furthermore, two monotelosomic (MtA7UgL, MtA7MgL) and nine ditelosomic (DtA1UgS, DtA1UgL, DtA2UgS, DtA1MgL, DtA2MgL, DtA3MgS, DtA5MgS, DtA6MgL, DtA7MgS) wheat-Ae. geniculata additions were recovered. C-banding and meiotic pairing analyses revealed that all added Ug and Mg genome chromosomes are structurally unaltered compared to the Ae. geniculata parent accession. Chromosome 4Mg has a strong gametocidal gene that, when transferred to wheat, causes extensive chromosome breakage mainly in gametes lacking it. The relationships of Ae. geniculata chromosomes with those of the diploid progenitor species and derived polyploids is discussed.Key words: Triticum aestivum, Aegilops geniculata, chromosome addition lines, C-banding, genome evolution.