| Understanding Evolution, In contrast, [[genetic drift]] produces random changes in the frequency of traits in a population. Genetic drift arises from the element of chance involved in which individuals survive and reproduce. | | Understanding Evolution, In contrast, [[genetic drift]] produces random changes in the frequency of traits in a population. Genetic drift arises from the element of chance involved in which individuals survive and reproduce. |
− | One definition of a [[species]] is a group of organisms that can reproduce with one another and produce fertile offspring. However, when a species is separated into populations that are [[reproductive isolation|prevented from interbreeding]], mutations, genetic drift, and the selection of novel traits cause the accumulation of differences over generations and the emergence of [[speciation|new species]]. Stephen Gould, The Structure of Evolutionary Theory, Belknap Press, ISBN 0-674-00613-5 . The similarities between organisms suggest that all known species are [[common descent|descended from a common ancestor]] (or ancestral gene pool) through this process of gradual divergence. {Douglas J. Futuyma, Evolution, Sinauer Associates, Sunderland, Massachusetts, ISBN 0-87893-187-2 ) | + | One definition of a [[species]] is a group of organisms that can reproduce with one another and produce fertile offspring. However, when a species is separated into populations that are [[reproductive isolation|prevented from interbreeding]], mutations, genetic drift, and the selection of novel traits cause the accumulation of differences over generations and the emergence of [[speciation|new species]]. Stephen Gould, The Structure of Evolutionary Theory, Belknap Press, ISBN 0-674-00613-5 . The similarities between organisms suggest that all known species are [[common descent|descended from a common ancestor]] (or ancestral gene pool) through this process of gradual divergence. {Douglas J. Futuyma, Evolution, Sinauer Associates, Sunderland, Massachusetts, ISBN 0-87893-187-2 ) |