Final answer:
Inherited mutations can alter variations in the genotype of offspring through genetic diversity. Mutations can have different effects on an organism's fitness, such as reducing fitness, providing a beneficial effect, or being neutral. Sexual reproduction also contributes to genetic diversity by combining unique alleles from two parents to produce diverse genotypes and phenotypes in offspring.
Step-by-step explanation:
Genetic diversity in a population comes from two main mechanisms: mutation and sexual reproduction. Mutation, a change in DNA, is the ultimate source of new alleles, or new genetic variation in any population. The genetic changes caused by mutation can have one of three outcomes on the phenotype. A mutation can affect the phenotype of the organism in a way that gives it reduced fitness-lower likelihood of survival or fewer offspring. Alternatively, a mutation may produce a phenotype with a beneficial effect on fitness. And, many mutations will also have no effect on the fitness of the phenotype; these are called neutral mutations. Mutations may also have a whole range of effect sizes on the fitness of the organism that expresses them in their phenotype, from a small effect to a great effect. Sexual reproduction also leads to genetic diversity: when two parents reproduce, unique combinations of alleles assemble to produce the unique genotypes and thus phenotypes in each of the offspring.