COLOUR INHERITANCE IN ICELANDIC SHEEP 83 entiation (Finney, 1968, personal com- munication). In the estimation procedure, u ancl v were first estimated as separate parameters for singles and twins, while s was estimat- ed as a common parameter for both singles and twins. In the first estimation 5 para- meters were thus involved, ug, uT, vg, vT and s, wliere the subscripts refer to singles and twins, respectively. The first estima- tion gave very low and non-significant values for us and vg, so in a second analysis they were both assumed to be 0, and only uT, vT and s were estimated in tlie second analysis. rFhe results from the estimation are shown in table 44, and the reduction in X2-vaues due to parameters in table 45. The results in tables 44 and 45 indicate strongly that selective fertilization and selective mortality operate actively in mat- ings involving genotypes with combina- tions of alleles Ax and Ag. The significant parameters obtained from these matings are also in agreement with deviations from expectations described earlier. The value obtained for s in matings from table 39 B is in agreement with the lowered fertility of white ewes as shown in tables 32—37. The value for vT from the same matings is in agreement with the discrepancies found between males and females with respect to the proportion of white lambs (table 28), and tlie value for uT, vT and s explain most of the excess variation found in table 39 B. Tlie presence of selective forces of the type described here, could give rise to decreased variation in segregation ratios as found in the AXA5 X AXA5 niatings. The diíference between singles and twins in the matings in table 39 B with respect to u and v is of particular interest. This differences suggests that selective fertiliza- tion due to differential activity of sperm carrying alleles Ax and Ag respectivelv is mainly active when two ova are shed. One might assume that variation in ovulation time is greater in ewes shedding two eggs than in ewes shedding only one egg. If this was so the ewes shedding two eggs sometimes shed an egg very early and sorne- times very late relative to time of mating, compared to ewes shedding only one egg. If the different types of sperrn are assumed to have different peaks of activity in rela- tion to tirne of mating, those with an early peak would fertilize early shed eggs more frequently and those with a late peak would fertilize late shed eggs more frequ- ently. Increased variation in ovulation time would therefore be expected to accentuate any differences in peak activity of the different types of sperm. It should also be borne in mind that the matings in the present study usually took place only once during the heat. This would be expected to increase the chances of detection of clifferent peak activity of different sperm types, whereas the peaks would overlap if several matings occurred during the same heat. It is not clearly established what the relation is between variation in ovulation time and the number of eggs shed. Donald and Read (1967) found, however, that the length of the heat period in the highly prolific Finnish Landrace ewes was con- siderably longer than that reported for other less prolific breeds (Robinson, 1959), and Land (1968, personal communication) found for the same breed sorne indication of a positive relationship between length of heat and number of lambs born. The finding in the present study that u and v are significant in twins and not in singles may therefore well have a meaningful bio- logical explanation. It should finally be pointed out that the effect of parameter v is assumed only to be found in white ewes. This makes it necess- ary to postulate a difference between white and nonwhite ewes with respect to either

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