Abstract: | The chromosome complement was studied in first-cleavage metaphases of mouse zygotes resulting from sperm aged in the male physiologically, after sexual rest. Females were inseminated by control males mating at 3-day intervals while experimentals mated to males that had had a sexual rest of 14 or more days. A total of 1954 eggs were collected 33–35 h post-HCG from 101 superovulated females mated to 42 controls and 43 experimental males. The fertilization rate was similar in both groups, being 84% and 85%, respectively. G-banded or Q-banded chromosomes were analyzed in 301 (68.3%) controls and 392 (49%) experimental first-cleavage metaphases. The overall rate of chromosome anomalies in controls was 4.45% as compared to 10.94% in experimentals, a highly significant difference. In the experimental group compared to controls, the frequency of trisomy, triploidy, structural rearrangements, and tetraploidy increased from 3.9% to 6.9%, 0% to 1.6%, 0.8% to 2.8%, and 0% to 1.3%, respectively. The genomic source of origin of the abnormalities was determined on the basis of differential condensation of the genomes. In the experimentals, grossly unbalanced sperm (diploids, disomics, double disomics, and those with large fragments) fertilized significantly more oocytes compared to controls. Our results implicate an advantage either in numbers or fertilizing capability for chromosomally abnormal sperm in a physiologically aged population. |