The Clearflight Pied budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Continental Clearflight and Dutch Pied varieties. The Dark-eyed Clear variety results when the Recessive Pied and Clearflight Pied characters are combined. [1] [2]
All pied budgerigars are characterised by having irregular patches of completely clear feathers appearing anywhere in the body, head or wings. These clear feathers are pure white in blue-series birds and yellow in birds of the green series. Such patches are completely devoid of black melanin pigment. The remainder of the body is coloured normally.
The Clearflight Pied has two main characteristics: a clear patch at the nape of the neck and, ideally, completely clear primary flight and long tail feathers. All other features are normal. However, few birds approach the ideal; most show considerable variation in the extent of the clear areas. The nape spot is almost always present, but it varies considerably in size, affecting just one or two feathers in some birds or extending well down the back and round into the breast on others. It is these latter birds, with extensive clear areas on the breast, that are known as Dutch Pieds. While well-marked Clearflight Pieds have all 10 primaries and both long tail feathers clear, many specimens show just a few clear flight feathers and occasionally none at all are affected. [3]
Poorly marked Clearflight Pieds can look rather like Recessive Pieds, but they may be distinguished from them by the white iris ring, which is always present in adult Clearflights. Some specimens may also resemble Australian Pieds but may be distinguished from them by two characteristics. Firstly, Clearflights have normally coloured blue-grey feet (Dominant Pieds usually have pink feet), and secondly, if they possess extensive clear areas on the breast, these always extends down from the mask whereas the clear areas of a Dominant Pied are always lower down on the abdomen with an area of normal body colour immediately below the mask and separated from it by a sharp dividing line. [3]
Dark-eyed Clears are a combination of the Recessive Pied and Clearflight Pied mutations, having two Recessive Pied alleles and either one or two Clearflight Pied alleles. They are completely clear yellow or white with no trace of the ghost markings often seen in Inos. The eye is a solid jet black (which can in some lights appear a deep plum colour) with no visible iris ring like Recessive Pieds. The cheek patches are silvery white, and the beak, cere and feet are also like those of the Recessive Pied. [3] Dark-eyed Clears shouldn't be mistaken for Black-eyed Clears which is another standalone mutation belonging to the a-locus.
Many isolated appearances of pied or variegated budgerigars were reported in Britain, in continental Europe and in Australia in the late 1920s and early 1930s, [4] but reliable reports of breeding results and detailed descriptions of their appearance during that period are rare. One of the earliest reports of the appearance of a budgerigar which could have been a Clearflight Pied was of a bird owned by W G Bowden [5] - it had a clear nape spot and its breeding behaviour clearly showed a dominant inheritance pattern. Mr Bowden obtained or possibly bred the bird in 1931 - he did not report its source. The bird, a cock, was basically a Light Green but it had 'a yellow patch on the back of the head, another on the base of the rump' and 'a yellow streak, about a quarter of an inch in width, from the left wing butt to halfway across the breast'. A number of its flights were reported to be white or yellow. When mated to an unrelated hen in 1933 this cock produced 14 young over three nests, of which 5 showed some clear feathers on the nape of the neck. This could have been the first report of a Clearflight Pied or a Dominant Pied; which of these it was is now impossible to tell as the only description available matches both types of Pied.
Several similar pied birds were reported around the same time in Germany, bred by Herr Krabbe and separately by Herr Schucke, [4] [6] by Madame Lecallier in France, [4] by G Wilson and T L S Dooley in England, [4] in Holland [4] and in Scotland, [4] but detailed descriptions and the mode of inheritance are unknown.
L Raymaekers of Brussels was the first to establish a substantial strain of Clearflight Pied budgerigars, which he called White-flighted or Yellow-flighted budgerigars. [7] These were all descended from a bird with a small clear head-patch which appeared in his aviaries in 1940. [1] Some birds, almost certainly from this strain, had been imported to England well before 1947, as F W Wait of Hemsby, near Yarmouth, advertised Whiteflights and Yellowflights for sale in that year. [8]
Some variegated birds established in Holland also showed a clear head-patch but in addition they showed extensive clear areas down the back, on the breast (continuous with the mask) and on the wings. It was birds marked like this that became known as Dutch Pied. [4] [9] For many years this was believed to be a separate mutation from the mutation we now know as the Clearflight Pied, but by 1961 it was 'almost certain' that these were the same basic mutation, the difference between them being due to the selection of different modifying genes by breeders. [10]
Reports that "Albinos and Lutinos with black eyes" were being bred appeared in Europe in the late 1940s. Initially these were believed to be a separate mutation, but after a time it was established they were a composite variety containing both the Clearflight Pied and the Recessive Pied mutations. [11] When Clearflight Pieds were paired with Recessive Pieds and the resulting Clearflights/Recessive Pied young were paired back to Recessive Pieds, some birds were produced with one Clearflight Pied allele and two Recessive Pied alleles. These birds were not pied, but were entirely clear, either yellow or white, [1] but unlike Inos these birds had a totally black eye. Later they became known as Black-eyed Clears.
The Clearflight Pied allele is dominant over its wild-type allele, although with less than 100% penetrance. The extent and distribution of the clear areas shown by both single- and double-factor Clearflight Pieds are variable. The range of variability of the two genotypes appears to be identical, so it is not possible to determine the genetic make-up by considering the extent of the clear areas. In both single- and double-factor birds this variability ranges from no clear feathers at all, via just one or two clear feathers, to over half the body area affected, although the clear areas in cocks tend to be larger than those of hens. [3]
Genotype | Phenotype |
---|---|
Pc+/ Pc+ | Normal |
Pc+/ Pc | Clearflight Pied |
Pc / Pc | Clearflight Pied |
The Clearflight Pied gene is located on one of the autosomal chromosomes. There is no known linkage of this gene with any other mutation.
There is no universally accepted genetic symbol for either the locus or mutant allele, so the symbol Pc+ for 'Pied, clearflight' will be adopted here for the wild-type allele at this locus, and the symbol Pc for the Clearflight Pied mutant allele. Both Taylor and Warner [12] and Martin [13] used just P for the Clearflight Pied locus, but as there are two dominant pied mutations a notation which treats them equally, distinguishing them with a second letter, seems preferable.
The factors governing the extent and distribution of the residual pigmentation are not known, although it is likely that at least some factors are sex-linked due to the different ranges in variability of the sexes. [3]
Genotype | Phenotype |
---|---|
Pc+ r+/ Pc r | SF Clearflight Pied/Recessive Pied |
Pc r+/ Pc r | DF Clearflight Pied/Recessive Pied |
Pc+ r / Pc r | Black-eyed Clear (SF Clearflight) |
Pc r / Pc r | Black-eyed Clear (DF Clearflight) |
The combination of one or two Clearflight Pied alleles with two Recessive Pied alleles produces the Black-eyed Clear variety, with the appearance described above. This combination appears to result in the complete suppression of the melanin pigment in all the feathers, yet leaves the eyes jet-black. The two forms, with one or two Clearflight Pied alleles, are indistinguishable visually, but differ in their breeding behaviour.
Note: this combination of two pied mutations in the budgerigar should not be confused with the Black-eyed Clear recessive mutation found in some parrots. [14]
The science of budgerigar color genetics deals with the heredity of mutations which cause color variation in the feathers of the species known scientifically as Melopsittacus undulatus. Birds of this species are commonly known by the terms 'budgerigar', or informally just 'budgie'.
The Recessive Pied budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Danish Pied variety, aka Harlequin. It is believed by Inte Onsman of MUTAVI to be the same mutation as the Anti-dimorphic Pied found in some parrots. The Dark-eyed Clear variety results when the Recessive Pied and Clearflight Pied characters are combined.
The science of cockatiel colour genetics deals with the heredity of colour variation in the feathers of cockatiels, Nymphicus hollandicus. Colour mutations are a natural but very rare phenomenon that occur in either captivity or the wild. About fifteen primary colour mutations have been established in the species which enable the production of many different combinations. Note that this article is heavily based on the captive or companion cockatiel rather than the wild cockatiel species.
The Blue budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is part of the genetic constitution of the following recognised varieties: Skyblue, Cobalt, Mauve and Violet.
The Yellowface I budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars.
The Yellowface II budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. In combination with the Blue, Opaline and Clearwing mutations, the single factor Yellowface II mutation produces the variety called Rainbow.
The Dominant Grey budgerigar mutation, often called the Australian Grey or simply Grey, is one of approximately 30 mutations affecting the colour of budgerigars. It is the basis of the Grey-Green and Grey standard varieties.
The Clearwing budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Clearwing variety, often known as Yellowwings in the green series and Whitewings in the blue series. When combined with the Greywing mutation the variety is known as the Full-bodied Greywing. When combined with the Yellowface II and Opaline mutations the Rainbow variety is produced.
The Greywing budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Greywing variety. When combined with the Clearwing mutation the variety is known as a Full-bodied Greywing.
The Opaline budgerigar mutation is one of approximately 30 mutations affecting the colour or appearance of budgerigars. It is the underlying mutation of the Opaline variety. When combined with the Yellowface II and Clearwing mutations the Rainbow variety is produced.
The Cinnamon budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Cinnamon variety and, with Ino, a constituent mutation of the Lacewing variety.
The Ino budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Albino and Lutino varieties and, with Cinnamon, a constituent mutation of the Lacewing variety.
The Slate budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Slate variety.
The Dominant Clearbody budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Easley Clearbody variety.
The Sex-linked (SL) Clearbody budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Texas Clearbody variety.
The German Fallow budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. At least three types of Fallow, the German, English, and Scottish, all named after their country of origin, have been established, although none of these types is common. They are superficially similar, but adult birds may be distinguished by examining the eye. All have red eyes, but the German Fallow shows the usual white iris ring, the eye of the English Fallow is a solid red with a barely discernible iris and the iris of the Scottish Fallow is pink.
The English Fallow budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. At least three types of Fallow, the German, English and Scottish, all named after their country of origin, have been established, although none of these types is common. They are superficially similar, but adult birds may be distinguished by examining the eye. All have red eyes, but the German Fallow shows the usual white iris ring, the eye of the English Fallow is a solid red with a barely discernible iris and the iris of the Scottish Fallow is pink.
The Scottish Fallow budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. At least three types of Fallow, the German, English and Scottish, all named after their country of origin, have been established, although none of these types is common. They are superficially similar, but adult birds may be distinguished by examining the eye. All have red eyes, but the German Fallow shows the usual white iris ring, the eye of the English Fallow is a solid red with a barely discernible iris and the iris of the Scottish Fallow is pink.
The English Grey budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It appeared briefly in the 1930s but was lost shortly after and until recently was believed to be no longer extant. However, the appearance of the anthracite budgerigar mutation in 1998 with a seemingly identical appearance and identical genetic behaviour, insofar as can now be determined, suggests the mutation may have been regained.
The Australian Pied budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Banded Pied variety.