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 Slate budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is the underlying mutation of the Slate variety.
The name 'Slate' is derived from the appearance of blue-series Slates, particularly the Skyblue Slate, which is close in colour to a Light Grey but with a more bluish tone. [1] [2]
The Light Green Slate is intermediate in shade between a Light Green and a Light Grey-Green. In both blue- and green-series Slates the cheek patch is purplish-grey or deep violet, [3] somewhat like the cheek patches of Mauves. [3] The long tail feathers are a little darker than the corresponding non-Slate. Other features are unaffected by this mutation.
The Dark mutation produces a more noticeable effect in combination with Slate than it does with Grey, but these darker Slate shades differ from one another very much less than Skyblue, Cobalt and Mauve differ. [3] The Cobalt Slate and Mauve Slate are distinctly darker than the Skyblue Slate, with the Mauve Slate being very dark. When Violet is also introduced the resulting Violet Mauve Slate is said to be extremely dark, of a dense blue-black colour. [4]
Only one discovery of the Slate mutation appears to be documented in the budgerigar literature. In 1935 T S Bowman of Carlisle bred a Skyblue Slate and a Cobalt Slate, both hens, from a Cobalt cock and a Skyblue hen. [2] [5] [6] As the Slate mutation is a sex-linked recessive, presumably the cock was split for Slate. In a series of articles [6] [7] [8] [9] published in the Budgerigar Bulletin, Mr Bowman described the establishment of the Slate mutation. After breeding a few Slates of the blue series, he deliberately paired a Cobalt split Slate cock to a Light Yellow hen to produce Slates of the green series, and in 1937 he succeeded in breeding both Light Green Slates and a Dark Green Slate.
In 1938 Mr Bowman paired a Slate to a Cinnamon, producing split Cinnamon Slate Type II cocks, [9] and in 1939 he intended breeding from these to produce Cinnamon Slates, [9] but no results appear to have been reported. It was, however, reported [10] that Cinnamon Slates had been bred in 1939 by both W G Roderick of Purley and Len Trevallion of Loughton in Essex. Mr Roderick paired a Light Green split dilute cinnamon slate cock to a Cinnamon Cobalt split dilute hen and they produced a Cinnamon Dilute Slate in the first round. Trevallion paired a Skyblue split cinnamon slate cock to a Dilute Mauve hen and they produced a Cinnamon Slate Cobalt split dilute hen. These Slates are likely to have been obtained from Mr Bowman, as he reported [9] that several other breeders had Slates.
Little was heard of Slates during and immediately after the war, but a few appeared again in the early 1950s, most or maybe all of which were Opaline Slates. [3] It seems to have been quite difficult to separate the Opaline and Slate genes [3] and it was not until 1962 that A F Fullilove reported [11] that non-Opaline Slates had finally been obtained.
After that, Slates almost vanished entirely, but in 1970, after a visit to Cyril Rogers, a Dutch couple obtained a pair of Slates, and later the only Slate they had left was passed to Inte Onsman. Then, in 1992, Inte Onsman sent two Slates cocks to Cyril Rogers. Mr Rogers died in August 1993 and his Slates were passed to Ken Gray, a member of the Rare Variety and Colour BS. Several members of that society then instigated a breeding programme designed to ensure the survival of the Slate variety. [1]
There has always been an interest in producing a completely black budgerigar, so far without success, and the darkening effect of the Slate mutation [3] prompted attempts to combine this mutation with other darkening agents to achieve this. W H James, of Flixton, near Manchester, was one of the first to cross-breed Violets and Slates, attempting it first in 1955, and Cyril Rogers also investigated the effect of combining several darkening mutations in one bird in the late 1950s and early 1960s. These attempts certainly produced dark budgerigars, but because the pale grey to white colour of the barbules of the body feathers is unaffected by any mutation known to date, the admixture of their colour with the colour of the underlying barbs would still produce a grey appearance, even if the barbs themselves were jet black.
The Slate mutation is sex-linked, the locus of its gene being carried on the X chromosome. It is recessive to wild-type. The gene locus has the symbol sl. The wild-type allele at this locus is notated sl+ and the Slate allele is notated sl.
| Sex | Genotype | Phenotype |
|---|---|---|
| Cocks | sl+/sl+ | Normal |
| sl+/sl | Normal (/slate) | |
| sl/sl | Slate | |
| Hens | sl+/Y | Normal |
| sl/Y | Slate |
In birds, the cock has two X chromosomes and the hen has one X and one Y chromosome. So in hens whichever allele is present on the single X chromosome is fully expressed in the phenotype. Hens cannot be split for Slate (or any other sex-linked mutation). In cocks, because Slate is recessive, the Slate allele must be present on both X chromosomes (homozygous) to be expressed in the phenotype. Cocks which are heterozygous for Slate are identical to the corresponding Normal. Such birds are said to be split for Slate, usually written '/slate'.
The table on the right shows the appearance of all possible genetic combinations involving just the Slate mutation.
The Slate gene is linked to other genes located on the X chromosome, i.e. to the genes of other sex-linked mutations. These sex-linked mutations include the Cinnamon, Ino and Opaline mutations. The cross-over or recombination values between Slate and these linked genes have not all been measured, but the opinion has been expressed [12] [13] [14] that there is a close link between Opaline and Slate. As several Cinnamon Slates were bred without difficulty, it seems likely that the linkage between Cinnamon and Slate is not close. However, these opinions are not borne out by the only measurements to date. [15] In these, Inte Onsman found 22 crossovers between Opaline and Slate in 54 hens bred, which gives a cross-over value of 41±9%, almost no linkage at all. He provides no figures, but suggests the linkage between Cinnamon and Slate is around 5%.
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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 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 Dark 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: Dark Green and Olive in the green series and Cobalt, Mauve and Violet in the blue series.
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 violet budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is one of the constituent mutations of the violet variety.
The Dilute budgerigar mutation is one of approximately 30 mutations affecting the colour of budgerigars. It is one of the constituent mutations of several recognised varieties: the Light, Dark, Olive, Grey and Suffused Yellows and the Grey and Suffused Whites.
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 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.