The environment may impose an external barrier to reproduction, such as a river or mountain range,
between two incipient species but that external barrier alone will not make them separate, full-fledged
species. Allopatry may start the process off, but the evolution of internal (i.e., genetically-based)
barriers to gene flow is necessary for speciation to be complete. If internal barriers to gene flow do
not evolve, individuals from the two parts of the population will freely interbreed if they come back
into contact. Whatever genetic differences may have evolved will disappear as their genes mix back
together. Speciation requires that the two incipient species be unable to produce viable offspring together
or that they avoid mating with members of the other group.
Here are some of the barriers to gene flow that may contribute to speciation. They result from natural
selection, sexual selection, or even genetic drift:
In our fruit-flies-in-rotten-bananas-in-a-hurricane example, allopatry kicked off the speciation process, but
different selection pressures on the island caused the island population to diverge genetically from the
|Geographic isolation can instigate a speciation
event but genetic changes are necessary to complete the process.
What might have caused that to happen? Perhaps, different fruits were abundant on the island. The island
population was selected to specialize on a particular type of fruit and evolved a different food preference
from the mainland flies.
|Differing selection pressures on the two
islands can complete the differentiation of the new species.
Could this small difference be a barrier to gene flow with the mainland flies? Yes, if the flies find mates by
hanging out on preferred foods, then if they return to the mainland, they will not end up mating with mainland
flies because of this different food preference. Gene flow would be greatly reduced; and once gene flow between
the two species is stopped or reduced, larger genetic differences between the species can accumulate.