Artificial insemination with frozen-thawed buck semen shows variable results which depend on many factors related to semen quality and the cryopreservation processing. We conducted experiments based on a new freezing method, directional freezing, of large volumes (8ml). In the first experiment semen from three Saanen bucks, ages 1-2-years-old and genetically selected for milk improvement, was frozen individually. Two to three-years-old Saanen females (n = 164) were synchronized with controlled internal drug release (CIDR), pregnant mare serum gonadotrophin (PMSG) and prostaglandin. Double cervical inseminations were performed with frozen-thawed semen and fresh semen as control. In the second experiment we used pooled, washed frozen semen to examine the effect of washed seminal plasma.The motility after washing was 80-90% and after thawing was 55-65% for all bucks. The sperm concentration increased with the collections and the advance into the breeding season from 1.9 x 10 9 to 4.4 x 10 9 cell/ml average. Two inseminations were carried out at 8h intervals. The first insemination was performed at 32h after CIDR withdrawal with fresh and frozen-thawed semen. Pregnancy rates were assessed by ultrasonography conducted 40 and 90 days post-insemination (from three bucks). Results were 58, 67, 50% with fresh semen, and for frozen semen were 33, 37 and 53%; these results were significantly different in one of the three bucks (P < 0.005). In the second experiment with pooled, washed semen the pregnancy rate was 41.6%, which compared with the average results of the frozen semen in the first experiment 38.9% no significant difference was found. We conclude that freezing buck semen in large volumes (8ml) is possible. Cryobanking of buck semen will facilitate a genetic breeding program in goats and preservation of biodiversity. Washed semen did not improve the fertility of the semen when Andromed bull extender is used.