The fact that environmental changes may drive evolutionary ones has been shown by fossil records of organisms in the Caribbean Sea, which show that if a species could shift from clonal to sexual reproduction, it can survive extinction. Researchers from the Smithsonian Tropical Research Institute and Scripps Institution of Oceanography report that hungry, sexual organisms replaced well-fed, clonal organisms in the Caribbean Sea as the Isthmus of Panama arose, separating the Caribbean from the Pacific.
The fossil record shows that if a species could shift from clonal to sexual reproduction it survived. Otherwise it was destined for extinction, millions of years later.
Closure of the Isthmus of Panama involved a protracted sequence of volcanic and tectonic events.
During the final phase, between about 4.5 and 3.5 million years ago, the Caribbean underwent a major change from a pea soup-like environment, fed by nutrient-rich waters surging up along South America, into a crystal-clear, nutrient-poor environment.
"As the Caribbean Sea was cut off from the Pacific Ocean, many new species appeared in the fossil record, and all reproduced sexually," said Aaron O'Dea, who holds a Tupper Postdoctoral Fellowship at the Smithsonian Tropical Research Institute.
Well-preserved fossils show that cupuladriid bryozoans, colonial animals similar to corals that walk around on the sea floor, reproduced either by cloning or by sex.
Nutrients to form eggs and sperm needed for sex can, on the other hand, accumulate slowly over time.
"The two forms are unmistakable," explained O'Dea. "You can clearly see the first individual that founded a sexual colony, while a clonal colony preserves the fragment from the previous colony from which it cloned," he added.
As predicted, clonal bryozoans rapidly disappeared from the record as the Caribbean was isolated.
Species that survived did so by becoming increasingly robust to reduce the chances of fragmentation while those that failed to evolve went extinct. They are still found in the nutrient-rich eastern Pacific.