Meiosis generates genetic diversity through a process called crossing over which allows new combinations of variations to appear in gene pool. … Each organism has a number of chromosomes in genome, hence several pairs are undergoing crossing over during one meiosis.
How does meiosis create genetic diversity?
During prophase of meiosis I, the double-chromatid homologous pairs of chromosomes cross over with each other and often exchange chromosome segments. This recombination creates genetic diversity by allowing genes from each parent to intermix, resulting in chromosomes with a different genetic complement.
Why is meiosis responsible for diversity?
Meiosis is important because it ensures that all organisms produced via sexual reproduction contain the correct number of chromosomes. Meiosis also produces genetic variation by way of the process of recombination.
How does meiosis cause variation?
Genetic variation exists because of changes to chromosomes or genes (DNA). Mutations are random changes in the number of chromosomes (e.g. Down syndrome) or the structure of a gene (e.g. cystic fibrosis). Independent assortment during meiosis increases variation because it results in genetically different gametes .
What is the difference between mitosis and meiosis?
Cells divide and reproduce in two ways, mitosis and meiosis. Mitosis results in two identical daughter cells, whereas meiosis results in four sex cells. Below we highlight the keys differences and similarities between the two types of cell division.
Why is crossing over important?
This process, also known as crossing over, creates gametes that contain new combinations of genes, which helps maximize the genetic diversity of any offspring that result from the eventual union of two gametes during sexual reproduction.
How do meiosis I and meiosis II contribute to genetic variation?
Because the duplicated chromatids remain joined during meiosis I, each daughter cell receives only one chromosome of each homologous pair. … By shuffling the genetic deck in this way, the gametes resulting from meiosis II have new combinations of maternal and paternal chromosomes, increasing genetic diversity.