I have F1 juveniles from a cross between Bronze split white male x spalding silverpied hen, They look like spaldings, I could see w/e s on their tail feathers, One of the males look like a pied bird ( one white, one pied and one w.e genes ). If I cross this male with the female...
Hi, I have successfully treated several times in the past few years this kind of swollen eye in peafowl, esp. in chicks with TYLAN 200 0.5 to 1 cc of tylan200 sub-cutaneos injection right into the inflammed area. or nearby. Make sure that you do not poke into the eyeball Tylan comes in two...
inject 1/2 ( half) a cc of " Tylan 200 " directly into the inflammed area. Make sure that you do not poke the needle into the eyebal. You can buy "Tylan 200 " on amazon on line without a prescription. Tylan comes in two strengths , 50 and 200. I have successfully treated sinus inflamation in...
All silverpied chicks inherit " one white gene " and " one white eye gene " from one parent ( even if it is a white looking bird ). and from the other parent "one pied gene " and "one white eye gene ". Therefore all white looking parents must carry at least one copy of the...
It is said on this forum that Peach is not a solo mutant. but is a cross over of purple and cameo. on the same chromosome. A chick deriving a Cameo gene from father and a peach gene fro mother, the chick genetically is a cameo split peach ( one cross over gene consisting of a purple and cameo...
Based on the parental genetics, This chick is spalding split bronze pied. got one bronze gene, +one white gene from father. From the mother, one pied gene, +spalding genetics. For a chick to be dark pied, both parents need to have a pied gene. Therefore, not a dark pied.. This chick may have...
Jaz, how come the chick in your picture lost so much of white both on wings, head, neck and body as he grew to yearling , Are you not mistaken. Look at Jim001 picture the chicks look similar to yours but grew and retained all that white that he had as a chick. If he had lost all the white, may...
That should do it. The swelling should start shrinking in 2-3 days and be gone in a week. if It persists , give another half cc of Tylan 200. AS far as my experience goes, It never spread to other peafowl. What causes, it, I read on this forum, some time back, the food particles, or dust fall...
What Augeredin said is 100%true..What I meant was that only 25 % of the chicks (both sexes together )produced will look like the one in the picture posted. Also, darkpied w/e,w/e x darkpied w/e, w/e = all the chicks will be darkpied w/e. w/e.
Indiablue silverpied x Indiablue silverpied = 25 % of the chicks produced will be white eyed (two copies of white eye gene) and of course dark pied too.
Since the father is a bronze, all of his chicks, including white, pied, split white etccc carry one copy of the bronze gene 9 meaning split to bronze. answer to your second question : Any yearling male ( for example, Indiablue or bronze ) with two copies of white eye gene show distinct white...
Spalding bronze split white male x spaldingpied hen = your thinking is right, also all the chicks will be split bronze. In the first cross itself you will get spalding pied split bronze chicks . for second question, Yes, you will get bronze pied chicks later by breeding split white, bronze...
If I may add, the dark pied Indiablue hen (bottom picture, strutting ) got one copy of w/e gene also. if bred with a white male( that comes from silverpied parents) you will get 50 % silverpied chicks and 50% pied chicks with one copy of w/e gene.. On the other hand , if bred with a white male...
Looks like a spalding blackshoulder hen . not necessalily a dark pied. Darkpied usually have white flight feathers, either primary, secondary, or tertiary and also a small white throat patch.And may or may not carry purple blood, based on her parents geneticcs. spalding purple blackshoulder...
You said it right. Silverpied is not an independently mutated gene. Therefore, there can never be peafowl described as " split silverpied. It is the cumulative effect of the 3 pattern genes that can be developed in all colors with a proper breeding plan.