k+ (fast normal-feathering)
k+ is the most recessive of the allelic series. One-day-old chicks pure for this allele have the primary remiges evidently longer than the coverlets (see Figure 2A) while 8- to 12-day-old chicks show their rectrices well developed (see Figure 1, chick on the left), and they later complete feather growing long before those chicks carrying K.
k+ is responsible for the fast normal-feathering found in most egg-type breeds like Leghorn, Minorca, Ancona and many others.[7]
Practical use of the sex-linked variation
When fast normal-feathering k+k+ cocks are mated to delayed-feathering K hens, the sex of all the descendants can be easily recognized at hatch: resulting female chicks k+ have fast normal-feathering (see Figure 2A) while male chicks Kk+ have delayed-feathering (see Figure 2B and 2C).
This happens because female birds have a single Z sexual chromosome, while males carry two,[8][9] contrarily to what happens in humans, where the male is the heterogametic sex, as occurs in most diploid species.[10]
k+ carrier females are always of the fast normal-feathering type, while heterozygous Kk+ males are of the delayed-feathering type because of the dominance of K over k+.
This regularity found practical use in commercial poultry breeding to separate chicks of different sexes in the hatcheries, thus avoiding the inconveniences associated with vent sexing and making easier, faster, harmless and cheaper the sex identification in one-day-old chicks.
Through controlled matings and selection, K gene was put into egg-type breeds like White Leghorn, where sex-linked delayed feathering did not originally occur, thus obtaining genetically delayed-feathering female parent breeders to be mated with fast normal-feathering male parent breeders in order to obtain sexable female chicks of the fast normal-feathering type.
In meat-type breeds, feather sexing was not so extended to commercial broiler production because resulting poorly-feathered males are very prone to scratches in the skin of the belly, which can discredit carcass quality. After all, unlike egg-laying poultry, meat-type male chicks are not culled, so broiler males can be set apart later, once sexual differences become evident.
However, feather-sexing was found to be very useful in the reproduction of female parent stocks, which are usually raised separated by sexes. This way, both sexes of the resulting broiler are of the fast normal-feathering type.
Advantages of feather-sexing
Identification of sex in one-day-old chicks by feather length has a few advantages over vent sexing:[11]
- Special sorting personnel is not required. While vent sexing can only be carried out by highly trained personnel, feather-sexing can be carried out by personnel without training.
- Risk of infection via sexing operative is completely eliminated, especially risk of infection by Escherichia coli due to manipulation.
- There is a lower probability of mistakes: when one-day-old females are sexed for breeding purposes there is less risk of males slipping through.
- Feather sexing is faster than vent sexing, reducing time required to dispatch the chicks out of the hatcheries. One can hatch more chicks per hour because one is not hampered by the drawback of vent sexing operatives being capable of sexing only a restricted number of chicks per hour.
- Some paraphernalia may be dispensed with, such as tables and lamps.
- The cost of sexing is much lower.
Disadvantages of feather-sexing
Feather-sexing can only be carried out in chicks resulting from the mating of fast normal-feathering males with delayed-feathering females, while vent sexing can be applied to any chicks. This means that feather-sexing cannot be applied to chicks of the same breed, unless geneticists preserve that breed segregating for both types of feathering and birds are strictly controlled for feathering type.
The preparation of new breeds to produce feather sexable crosses implies considerable previous genetic work which is completely beyond the means of most poultry farmers.