104 ÍSLENZKAR LANDBÚNAÐARRANNSÓKNIR of F^-progeny from two black Karaknl rams and white ewes describes 2 darkbrown lambs by one of the Karakul rams. This ram sired altogether 94 lambs, 92 black and 2 brown. Duck describes these lambs as not being true red, but more of a choco- late red colour, and more black than red. One of these lambs was out of a Leicester ewe and the other out of a Lincoln ewe. The colour of these two brown lambs seems to have been the same as or similar to that found in recessive brown sheep by Vasin (1928), and therefore possibly also the same colour as he found among Kara- kuls in Turkestan near Rokhara. Vasin de- scribes that colour as black with a golden sheen and points out that it is similar in appearance to the recessive brown in north- ern shorttailed sheep and Merinos. If one assumes that the dominant in- tensifier operates independently of whether the pigment is black or brown, sheep carry- ing the intensifier and homozygous or heterozygous for recessive black pigment would be black, wliile sheep homozygous for genes for brown pigment would be brown. The occurrence of the two dark- brown lambs described by Duck, which has not yet been explained satisfactorily, would then have been due to the presence of the gene for recessive brown in hetero- zygous state in the Karakul ram, and re- cessive brown occurring at a very low fre- quency among the white ewes in the parental generation. Brown animals among the Fj’s would then only be expected when the gene for recessive brown was obtained from both parents. Some Cheviots were used in Duck’s experiments, and none of them gave any brown progeny, when mat- ed to the Karakul rams. The Cheviots used in Ewart’s (1919) experiments, on the other hand, were shown to carry recessive brown, so brown lambs would have been expected from them in Duck’s experiments if all Cheviots carried recessive brown. Russian experiments (Nikoljskij et. al., 1929, quoted by Bonikowsky, 1935) involv- ing so-called coffee-brown or milk-coffee- brown sheep also support the hypothesis that recessive brown in homozygous form would be expressed as brown in presence of the intensifier. 2. Reddish brown Duck (1921, 1922) reports a second type of brown in his crosses, which he calls true red. This seems to be the colour most com- monly referred to as dominant brown Adametz, 1917, Vasin, 1928, Bonikowsky, 1935). The description of the dominant brown given by Vasin (1928) indicates strongly that this colour is comparable to the tan colour found in the Icelandic sheep, and that this colour is only expressed in the pre- sence of the gene for white. Adametz (1917) showed that the dominant brown sheep in his study had lightcoloured horns and hoofs, which siqiports the hypothesis that they carried the gene for white and were of a dark tan colour. Crossings carried out by Bonikowsky (1935) between brown Karakuls ancl white European breeds and his backcross of a brown Karakul-Rhön F^-ram to Rhön ewes also support this hypothesis. The results reported by Duck (1921, 1922), where a heterozygous Karakul ram was mated to black Karakul X white Fx-ewes, are also consistent with the same liypothesis. Henseler (1913) obtained some white lambs with brown markings and wild type coloured lambs in an F2 out of a Merino X Somali-cross, and these lambs have most likely been tan-coloured. Nikoljskij et. al. (quoted by Bonikow- sky, 1935), when mating a seemingly hetero- zygous black Karakul ram to coffee-brown fat rump ewes obtained 15 black lambs, 16 coffee-brown, one fox-red and one

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