COLOUR INHERITANCE IN ICELANDIC SHEEP 63 type of mating only gave progeny born in 1961, one might have assumed that the accuracy of colour description had been in- creasing gradually and had reached per- fection in 1961. The results in table 23 indicate strongly that the cliscrimination between grey ancl black has been equally accurate over the whole period of data collection. Another possible explanation of the deficiency of grey progeny would be that certain rams had eitlier been mistakenly classified as grey when they were actually black, or that some of the grey rams carried a deleterious gene closely linked with the A2-allele which reduced the embryonic survival of grey progeny. Under both those hypotheses one would expect a significant difference between sires witli respect to tlie segregation ratio. Table 24 gives the results from tlie A2A- X A5A5 matings grouped according to sires. The two heterogeneity x2’s in table 24 are not significant. This is naturally no proof that there is no real tlifference be- tween sires witli respect to segregation ratios, particularly because the more reli- able heterogeneity ^2 is rather large. If on tlie other hand tlie deficiency of grey lambs was due to sire differences only, these would have been expected to sliow up more clearly in the above test. A repeated assessment of the behaviour of the A2-allele on independent data would make possible a final conclusion with re- spect to the significance of the deficiency of the A2-allele in certain matings. No independent data are available where the genotypes of both parents are known prior to the mating. But bearing in mind that all the grey sires used before 1960 were darkgrey, and that all the homozyg- ous grey sires usecl in 1960/1961 were light- grey, the darkgrey rarns could all be assuni- led to be heterozygous grey, of genotype A2A5. Several of the darkgrey rams were tested for heterozygosity in their first year of use and they were all sliown to be of genotype A2A5. The progeny from the test- year of each sire is not included in table 9, so the results from these test-year matings can be used as an independent source of segregation information with respect to the A2 Ab-genotype among sires. l'he results of the matings of these rams in their test-year to ewes of known genotypes are shown in table 25. Also included in the table are the results from table 9 for the same mat- ings. Matings with less than 10 progeny have been excluded from the table, in order to obtain x2’s of reasonable relia- bility for comparison of the two data sets. The comparisons shown in table 25 make it clear that the data from the test-year are in agreement with the data from the known matings. None of the heterogeneity X2’s between sets are significant and the sum of the 4 heterogeneity ^‘-’s between sets is not significant either (x24 = 5.853; 0.50 > P > 0.30). The A2A5 dams give a higldy significant deficiency of grey lambs in the test-year, while the results from the other ewe groups in the test-year do not differ significantly from expectation. The sum of both sets of data for the 3 last ewe groups in the table together shows, how- ever, a significant deviation from expecta- tion, and there is a good agreement be- tween both sets with respect to the sum of the 3 ewe groups. The conclusion derived from tliis addi- tional information must therefore be that there is a significant deficiency of progeny showing the A2-allele in matings where this allele is segregating. B. SUBNORMAL VARIATION IN SEGREGATION RATIOS It is clear from tables 18—25 that esti- mates of the allele parameters a1( b^ and

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