The breed standards state “All colors are strong, clear and rich. The recognized colors are blue merle, red (liver) merle, solid black, and solid red (liver) all with or without white markings and/or tan (copper) points with no order of preference. The blue merle and black have black pigmentation on nose, lips, and eye-rims. Reds and red merles have liver pigmentation on nose, lips, and eye rims. Butterfly nose should not be faulted under one year of age. On all colors, the areas surrounding the ears and eyes are dominated by color other than white. The hairline of a white collar does not exceed the point at the withers. These are all distinct genetic traits and breeders need to understand how they are inherited.
Black is dominant to liver, therefore a liver colored dog (whether merle or not) can only pass along genes for liver and when bred to another liver-colored dog all resulting puppies will be liver. A black dog, on the other hand, may produce puppies of either color if it happens to carry a liver version of the gene, referred to as ‘red factored”. Those with no liver version will never produce liver colored offspring. You can determine whether a black dog is red factored several ways: If it has a liver parent or offspring, by doing a DNA test, or by breeding it to a liver colored dog to see if you get liver puppies. If you try the test mating you need six puppies to be 98% sure of the result – all black would mean the dog is not red factored but even one liver pup would mean it is.
|Black Tri – Black, White, Copper||Black Tri – Black, White, Copper||Black Bi – Black and White|
|Red Tri – Red, White, Copper||Red Tri – Red, White, Copper||Red Bi – Red and White|
The Merle Pattern
A blue merle is a black dog with the merle pattern; a red merle is a liver dog with the merle pattern. All the merle gene does is determine whether or not a dog is merle. This gene is an incomplete dominant. Two dominant copies produce a “double merle” which will most likely have serious eye defects and may be deaf. Two recessive copies result in a dog that is not merle. One of each is a normal merle, a state midway between the two homozygous forms.
There is also another version of this gene, called cryptic, that falls in dominance between the other two. A cryptic merle dog will have only a small merle patch somewhere on the body. It is possible if that patch lies somewhere that also gets a white marking, that you might not know a dog carried this version of the gene. While it was once thought that these dogs would, like normal merles, produce defective double merles if bred to another merle dog, this does not appear to be the case. Cryptic merles might be bred to a merle or a non-merle with no fear of merle-related defects.
|Blue Merle with Copper and White Trim||Blue Merle with Copper and White Trim||Blue Bi with White Trim|
|Red Merle with Copper and White Trim||Red Merle with White Trim||Red Merle with Copper and White Trim|
Tan or Copper
Tan points are caused by one of the several versions of a gene called agouti. Only two of these are contributors to normal Aussie coat coloration, the one that causes tan and another that gives no tan. Most Aussies have two copies of the tan version of this gene, though it is possible that some Aussies without tan may have two copies of the recessive version. However, there is a weasel in this particular hen-house in the form of a gene called K. If a dog has a single copy of the dominant version of K it will not have tan trim. This gene version has been found in Aussies though most have two copies of the version that allows tan trim. Therefore, lack of tan trim may be either dominant or recessive depending on whether it is caused by versions of agouti or K. If you have a line where lack of tan is common the breeding patterns for the trait should tell you which you are dealing with – though it is possible that some lines might have both and be difficult to predict.
White markings are the most genetically complex aspect of normal Aussie color. Only two white marking genes have been clearly identified so far in dogs. One causes the type of pattern seen in Boxers. The other is associated with the “Irish” pattern seen in collie-type dogs, like the Aussie. However, the specific extent of these markings on any individual dog can be highly variable due to the actions of other genes or gene regulatory factors. In general, though, less white is dominant to more: Two dogs with little white can sometimes produce offspring with lots of white, but two with maximum white trim will not produce a puppy with almost none.
If you have more questions about color, please visit the ASHGI site.