COLOUR INHERITANCE IN ICELANDIC SHEEP 67 ing white parents has not been pointecl out previously as far as can hy seen, and no previous explanation of tliis phenomenon is therefore available. It was therefore decided to examine the present data further in light of this find- ing and see if an explanation could be found. C. EFFECT OF SEX AND TYPE OF BIRTH OF LAMB ON SEGREGATION RATIOS The first step taken was to examine the connection between sex of lamb and col- our, irrespective of nrating. For this pur- pose all single and twin lambs in the whole material with known sex were grouped according to whether these were wliite or nonwhite. Table 28 shows the number of white and nonwhite lambs for each sex for singles and twins separately, together with the proportion of white lambs in each group. In table 29 are given X2’s for comparisons of interest among the proportions of white lambs. Tables 28 and 29 sliow clearly that the proportion of white lambs is different for the two sexes, the males showing a signi- ficantly liigher proportion of wliite larnbs than females. This sex difference is similar for both singles and twins. It is also clear from the tables that the proportion of white lambs is significantly higher among singles than among twins. Table 30 shows the proportion of males among nonwhite lambs when they are classified by colour pattern and sex, and also when classified according to black and brown pigment. Table 31 shows the x2’s resulting from comparison among the sex ratios in table 30. Table 31 shows no indication of a signi- licant difference in sex ratio among non- white lambs when classified according to colour pattern, pigment type and type of birth. It should be pointed out that the de- ficiency in progeny carrying the A2-allele is not related to sex or type of birth of the progeny, cf. tables 30 and 31. The com- parison of the sex ratios within lambs carrying A2 with homozygous A5A5 lambs shows no significance, neither within nor between types of birth. The deficiency ol progeny carrying allele A2 as shown in tables 18, 19 and 25 is therefore independ- ent of sex and type of birth of the pro- geny. D. EFFECT OF COLOUR ON FFRTILITY The high proportion of nonwhite lambs among twins compared with singles as shown in table 28 could arise from a variety of environmental causes. The nonwhite ewes in the data collection could for ex- ample be found mainly in flocks with higli standards of feeding or there might be a different age distribution of white and nonwhite ewes. Changes in feeding prac- tices over the periotl of data collection might also have been concomitant with changes in the proportion of nonwhite ewes in the material. In order to examine the possible sources of variation in fertility the characters “nurnber of lambs per ewe lambing” ancl “number of lambs per mating” were sub- jected to an analysis of variance. Tlie method of fitting constant (Goulden, 1952, Harvey, 1960) was used with the modifica- tion that the generalised inverse of the de- sign matrix was calculated so that impos- ing restrictions on the simultaneous equa- tions before inversion of the rnatrix was unnecessary (Searle, 1966). In order to re- duce the size of the matrix when a large number of equations was being solved the technique of absorbing a set of equations

Qupperneq 1
Qupperneq 2
Qupperneq 3
Qupperneq 4
Qupperneq 5
Qupperneq 6
Qupperneq 7
Qupperneq 8
Qupperneq 9
Qupperneq 10
Qupperneq 11
Qupperneq 12
Qupperneq 13
Qupperneq 14
Qupperneq 15
Qupperneq 16
Qupperneq 17
Qupperneq 18
Qupperneq 19
Qupperneq 20
Qupperneq 21
Qupperneq 22
Qupperneq 23
Qupperneq 24
Qupperneq 25
Qupperneq 26
Qupperneq 27
Qupperneq 28
Qupperneq 29
Qupperneq 30
Qupperneq 31
Qupperneq 32
Qupperneq 33
Qupperneq 34
Qupperneq 35
Qupperneq 36
Qupperneq 37
Qupperneq 38
Qupperneq 39
Qupperneq 40
Qupperneq 41
Qupperneq 42
Qupperneq 43
Qupperneq 44
Qupperneq 45
Qupperneq 46
Qupperneq 47
Qupperneq 48
Qupperneq 49
Qupperneq 50
Qupperneq 51
Qupperneq 52
Qupperneq 53
Qupperneq 54
Qupperneq 55
Qupperneq 56
Qupperneq 57
Qupperneq 58
Qupperneq 59
Qupperneq 60
Qupperneq 61
Qupperneq 62
Qupperneq 63
Qupperneq 64
Qupperneq 65
Qupperneq 66
Qupperneq 67
Qupperneq 68
Qupperneq 69
Qupperneq 70
Qupperneq 71
Qupperneq 72
Qupperneq 73
Qupperneq 74
Qupperneq 75
Qupperneq 76
Qupperneq 77
Qupperneq 78
Qupperneq 79
Qupperneq 80
Qupperneq 81
Qupperneq 82
Qupperneq 83
Qupperneq 84
Qupperneq 85
Qupperneq 86
Qupperneq 87
Qupperneq 88
Qupperneq 89
Qupperneq 90
Qupperneq 91
Qupperneq 92
Qupperneq 93
Qupperneq 94
Qupperneq 95
Qupperneq 96
Qupperneq 97
Qupperneq 98
Qupperneq 99
Qupperneq 100
Qupperneq 101
Qupperneq 102
Qupperneq 103
Qupperneq 104
Qupperneq 105
Qupperneq 106
Qupperneq 107
Qupperneq 108
Qupperneq 109
Qupperneq 110
Qupperneq 111
Qupperneq 112
Qupperneq 113
Qupperneq 114
Qupperneq 115
Qupperneq 116
Qupperneq 117
Qupperneq 118
Qupperneq 119
Qupperneq 120
Qupperneq 121
Qupperneq 122
Qupperneq 123
Qupperneq 124
Qupperneq 125
Qupperneq 126
Qupperneq 127
Qupperneq 128
Qupperneq 129
Qupperneq 130
Qupperneq 131
Qupperneq 132
Qupperneq 133
Qupperneq 134
Qupperneq 135
Qupperneq 136
Qupperneq 137
Qupperneq 138
Qupperneq 139
Qupperneq 140