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4 Basic Colour Layers Of Bettas There are up to 26,000 different gene combinations to create that betta look that you have. There are basically four colour layers for a betta; 1. Iridescent Layer (Top layer) Each of these Colour Layers has a genetic code or a series of genes that determine the colour of the Betta. The gene either increases or descreases in pigment depending on the layers. It also control where each colour is distributed. Therefore, your betta colour is determined by the colour pigments in their colour cells which are found within the layers of the skin. Traits (known as Phenotypes) are what we see. Genes that make up the traits (known as Genotypes) contain the information for the proteins that catalyse the reactions to produce the pigment we see. It can be very complicated, and when breeding fish outside of an established strain--anything can happen! 1. Iridescent Layer (Top Layer) This layer is also know as the Blue Layer and controls the amount of blue pigments in your betta. Guanophores (Blue/ Green Cells), also know as iridophores, contain these traits; - Blue-Green (Steel Blue, Royal Blue, and Green) - Spread Iridocytes (Turquoise Blue) - Non-Blue (Total Absents of Blue) Blue-Green is represented by B1.
This gene can create 3 different colours; So when you breed a pair of Steel Blues (b1b1 x b1b1), you will get 100% Steel Blue. Same goes to breeding a pair of Green (B1B1 x B1B1), you will get 100% Green. But when you breed a pair of Royal Blue (B1b1 x B1b1), you will get 50% Royal Blue, 25% Steel Blue and 25% Green. It should also be noted that if a lot of black pigment is under the iridescent layer, the colors will appear much darker and richer and if no Black is present a more pastel appearence is created. Spread Iridocytes : This gene gives a betta it's metallic reflection, producing colours such as turquoise. Iridocytes is the name given to the crystals that create the iridescence that give the blue to green colouring. Spread Irodocytes refers to the genetic SiSi which increases the amount of iridescence seen in the betta. It is not a completely understood gene at this time but it is known that the combination sisi creates greatly reduced iridescence. With the wide range in amounts of iridescence that are seen in various specimen, it is possible that Sisi could create an intermediate level of iridescence or that there may be more than one gene pair involved. Non-Blue gene is what you have when you get a betta that consists of no Blue Layer. There has not been a gene identified that creates a complete elimination of the blue layer. However several breeders have breed bettas that do not show any signs of blue. It is therefore argumentative. However in the case of a blbl combined with sisi, the blue layer could be very limited and create only a small silver glow to the point where it may not be recognized as an actual blue. When you add to this the Cambodian, and Bright/Blond trait in yellows and whites, you may actually have the compounding effect limiting the blue layer. However, there may still be an unrecognized gene to create this No-Blue which has not been identified yet. Black Layer Melanophores (Black Cells), contain
these traits; The above 3 genes will directly affect the Black Layer Cambodian -
Besides the traditional Cambodian style betta, which consists of a flesh
colored body and red fins, nowadays you can find a wide variety of betta
that are termed 'Cambodian'. Blond/ Bright gene is also Double Recessive, represented by bb. Its effect of limiting the Black pigment is best seen in the red bettas where its presence creates a bright red fish. Where if this gene is absent, it results in a maroon colored fish with black under the red layer creating a much darker color. It also comes into play with iridescent fish making them appear much more pastel colored. Melano gene, which is double recessive mm, increases the black pigments in a betta, thus you will end up with a black betta. Unfortunally, somewhere along the line, with the increase of this gene it causes most melano females to be infertile. Thus a breeder would have to cross their black male with a blue or, better yet, a black lace female. Black lace have almost transparent fins. The females are fertile and also a pure Black Lace pair will breed Black. 3. Red Layer Erythrophores (Red Cells),
contain these traits; Extended Red gene called R will control the distribution and intensity of red in a betta. If it's termed Extended Red, it means the red will cover the entire body and fins which is most desirable. This gene R is similar to the Si gene, as there are varying degrees in the red. If a betta has less red distribution, it is represented by rr, while one with more red is represented by RR. Reduced Red bettas will have a darker body (blue, green or black) with red fins. No gene has been identified that reduces the red. Non-Red gene is Double Recessive nrnr, and does not show any red pigment. Most believed that the non-red gene modifies the pigment from red to yellow pigment colour which is appearing slightly. Variegated Fins gene controls the red in fins and create the effect which we termed Butterfly. Dr. Gene Lucas refers this gene as Vf, which controls the variegation of red in the fins. The distribution of red in the fins can be in various patterns as well as intensity. 4. Yellow Layer (Bottom Layer) Xanthophores (Yellow Cells),
contain these traits; So far, there have been no genes identified that control the yellow layer of pigmentation. Some said that it could be related to an Opaque gene. * Please learn with open mind, nothing is absolute. I would also like to thank those who have shared their experiences and knowledge with me.
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