Although largely ignored for 34 years he provided the first evidence of hereditary segregation and independent assortment.

The dihybrid cross illustrates the law of independent assortment.

This theory of "independent assortment" of alleles is fundamental to genetic inheritance.

Along with crossing over, independent assortment increases genetic diversity by producing novel genetic combinations.

In contrast, the offspring of sexual organisms contain random mixtures of their parents' chromosomes that are produced through independent assortment.

Genetic variation can also be produced by the recombination of chromosomes that occurs during sexual reproduction, called independent assortment.

Mendel also assumed that all hereditary factors worked independently of one another, which he explained in his law of independent assortment.

This is stated in Mendel's Second Law and is known as the law of independent assortment.

This is a consequence of independent assortment.

This he called the Law of independent assortment.