Ok Im no genetics expert in any way. From what I was seeing if two pins were bred together. Out of 4 eggs you should get 2 pins 1 Homozygous and 1 normal. Right? There is no super form that we know of right? Then the Homozygous must look just like the normal pin. So that should mean two pins from that clutch ( out of 4 eggs), when bred to a normal should be 50/50 pin/normal hatchlings( 4 eggs 2 pins 2 normals). Right? The 1 homozygous pin that I take it must look like a normal pin. When bred to a normal should produce all pins. Right? Then the normal X normal = normals.

So the only way to find out what pins are hets and what ones are Homozygous. The easiest way would be to keep them all breed them all to normals. 2 of those pins should produce 50% pins and 50% normals. Then the one if its Homozygous should produce all pins. Right? But I could breed a pin X pin and get all normals too. If my luck sucked that year or whatever. So there is a good chance there is a super pin yes/no? But it might not look any different than a normal pin. Any thoughts on this