A change in gene frequency in a sexually reproducing population is most likely caused by conditions such as natural selection, genetic drift, and gene flow. Natural selection can favor certain traits, leading to differential reproduction among individuals. Genetic drift can cause random changes in allele frequencies, especially in small populations. Additionally, gene flow, or the migration of individuals between populations, can introduce new alleles and alter gene frequencies.
Firstly, mutation. In a sexually reproducing population recombination ( independent orientation of chromosomes and crossing over in meiosis and random fertilization ) is also a source of variation in populations.
Sexually reproducing organisms inherit their alleles from their parents. Offspring receive one copy of each gene from each parent, leading to genetic variation.
Through Meiosis
It increases the genetic diversity of the tree's offspring.
has occurred in sexually reproducing forms. can be produced with new biological techniques. has produced changes that resulted in evolution.
Yes, fungi are capable of reproducing both asexually and sexually.
Sexually-reproducing species have an advantage over asexually-reproducing species in their ability to use two different sex cells.
Sexually-reproducing species are able to adapt more easily than asexual-reproduciing species
Firstly, mutation. In a sexually reproducing population recombination ( independent orientation of chromosomes and crossing over in meiosis and random fertilization ) is also a source of variation in populations.
they multiply
If meiosis did not occur in sexually reproducing organisms, the chromosome number would double in each generation. Sexual reproduction results in new combinations of genetic traits.
by reproducing asexuallly or sexually
puberty
The gametes.
The genetic material of a sexually reproducing organism evolves for better adaptations.
it can't it can't
meiosisHuman recombination