they go through simple metamorphosis
If you cross a red flower with a white flower, you will get a pink flower. This is incomplete dominance.
A trait that exhibits incomplete dominance, is one in which the heterozygous offspring will have a phenotype that is a blend between the two parent organisms. An example of this is when a homozygous red sweet pea flower crossed with a homozygous white sweet pea flower, their offspring will be heterozygous and have the pink phenotype, rather than either red or white. So, the homozygous red flower will be red, the homozygous white flower will be white, and the heterozygous flower will be pink. So there are three possible phenotypes in incomplete dominance. There are also no dominant or recessives genotypes.
There are two cases where this can happen: Case 1: Codominance: Both alleles are equally present but are distinct. a good example of this is when you breed a white cow with a red cow. both white and red are dominant. when you look at the offspring, it is roan; it has both white and red hairs mixed in with each other. Case 2: incomplete dominance: Both alleles are equally present but are not distinct. a good example of this is is when you mix a white flower and a red flower and you get a pink flower
When neither allele is dominant, the trait that results depends on whether there is codominance or incomplete dominance. In codominance, that traits coded for by both alleles are expressed. For example, if R codes for red and r codes for white, a flower with the genotype Rr would be white with red spots/splotches/stripes/etc. (or red with white spots) - so it is showing both traits. In incomplete dominance - a mixture of the two traits is seen. For example, if R codes for red and r codes for white, a flower with the genotype Rr would be pink (a mixture of red a white).
This is called co-dominance. Both alleles are expressed. For example, if white and red in a flower are co-dominant, the offspring will have both red and white petals in a flower. See link below:
Complete metamorphosis is the description for the white pine weevil. The insect in question (Pissodes strobi [Peck]) passes through four complete -- not three incomplete -- stages in its life cycle and natural history from egg to larva to pupa to adult.
Incomplete dominance
An example of incomplete dominance is when a white flower and red flower mate and create a pink flower. The white and red colors mix creating the pink. Neither allele is dominant, resulting in a combination of the two.
Incomplete dominance is where the phenotype of the heterozygote is intermediate to both the heterozygotes. The classic example of this phenomenon is pink snapdragons. If you cross red and white snapdragons, you get pink snapdragons, because neither the red or white allele is dominant to the other.
A white cat and a black cat having grey kittens.
If you cross a red flower with a white flower, you will get a pink flower. This is incomplete dominance.
Incomplete dominance is where the phenotype of the heterozygote is intermediate to both the heterozygotes. The classic example of this phenomenon is pink snapdragons. If you cross red and white snapdragons, you get pink snapdragons, because neither the red or white allele is dominant to the other.
This is an example of incomplete dominance.
This is an example of incomplete dominance.
yes
If there is incomplete dominance, the offspring will have an intermediate of phenotype. For example, if you mate a homozygous white flowered snapdragon plant with a homozygous red flowered snapdragon plant, you will get pink flowered offspring.
The two traits will appear to blend. example: Red Flower plus White Flower= Pink Flower