Study of aneuploidy in spats of Ostreidae (Bivalvia). Chromosomes of cells from gill tissue of juveniles (5–10 mm) from four different populations of Ostrea edulis and five different populations of Crassostrea gigas were examined in order to study aneuploidy and its significance. Mitotic chromosome counts were made for a sample of spats in each population. Cells with the normal diploid complement (2n=20) and with aneuploid complements (2n different from 20) were scored. The total percentage of aneuploid cells in the studied populations of the two species varies from 9% to 34%. Individual patterns of aneuploidy were examined in three populations of Crassostrea gigas. Some animals showed only normal diploid cells, others having both normal and aneuploid cells in variable proportions. The relationship between aneuploidy and growth rate was studied in experimental spats. Mitotic chromosome counts were made on individuals from two groups of animals: the first group was collected at a precise date at a control size of 8 mm, the second group reaching the same size of 8 mm only one month later. The percentage of animals showing aneuploid cells is much greater in the second group. There is a relationship between occurrence of aneuploid cells and growth rate. The karyotypes of 18 aneuploid sets of Ostrea edulis from different spats were analyzed. Chromosome loss was observed only in the submetacentric chromosome pairs. This loss of chromosomes could have an effect on the percentage of homozygotes observed in electrophoregrams. Thus, the percentage of homozygotes would be higher in juveniles showing the greatest number of aneuploid cells. An excess of homozygosity (=heterozygote deficiency) has been reported at a number of enzyme loci in over two dozen bivalve species (including Ostrea and Crassostrea). We suggest the hypothesis that this excess of homozygosity could be related to the occurrence of aneuploid cells. The relationship between aneuploidy and growth rate may prove to be a genetic factor of importance for oyster culturing.