Budding, fragmentation and regeneration.
homozygous recessive
Its called budding.
Because only one parent contributes to produce an offspring so its identical
The maximum number of offspring that parent organisms can produce varies depending on the species. Some organisms can produce thousands of offspring in a single reproductive event, while others may only produce a few offspring. In general, organisms with shorter lifespans tend to produce more offspring compared to those with longer lifespans.
Because only one parent contributes to produce an offspring so its identical
dominant parent traits.
Genes that are identical to those of the parent
This can be explained by Mendel's law of segregation, which states that each parent passes on one allele for each gene to its offspring. In this case, the parent is heterozygous (Aa) at the A locus, so it can pass on either the A allele or the a allele to its offspring with equal probability. Therefore, it can produce offspring that are AA or aa.
The offspring will be a scientist.
Asexual reproduction does not produce genetic variation among offspring, as the new organisms are exact copies of the parent organism. This process involves only one parent and typically occurs through methods such as budding, regeneration, or binary fission.
dominant parent traits.
The offspring will all inherit one copy of the dominant allele (from the heterozygous parent) and one copy of the recessive allele (from the homozygous recessive parent). This results in all offspring being heterozygous for the trait.