The effect of maternal age on the incidence of chromosomal abnormalities was investigated on a large sample of 3,042 in vitro unfertilized human oocytes II obtained from 792 women aged 19–46 years and participating in an in vitro fertilization program for various indications. The chromosomal analysis combined a gradual fixation of oocytes and an adapted R-banding technique. A total of 1,397 interpretable karyotypes were obtained. Various types of numerical aberration were observed, involving conventional chromosome nondisjunction (3.5%), single-chromatid nondisjunction (5.9%), complex (0.8%) or extreme aneuploidy (0.5%), diploidy (5.4%), and set of single chromatids (3.8%). No significant difference was found in the mean age of women according to the various types of chromosomal abnormalities. A positive relationship was found between maternal age and the global rate of aneuploidy, in agreement with the findings of epidemiological studies. The incidence of both whole-chromosome nondisjunction and precocious chromatid separation were correlated to maternal aging but the most significant correlation was found between maternal aging and single-chromatid nondisjunction. The rate of diploidy was also correlated to a slight extent to maternal aging, whereas no correlation was found between maternal age and the rate of single-chromatid sets. These data reveal that single-chromatid malsegregation is an essential factor in the age-dependent occurrence of nondisjunction in human oocytes. Disturbance in sister-chromatid cohesion might be a causal mechanism predisposing to premature chromatid separation and subsequently to nondisjunction in female meiosis.