Plants and animals are generally thought to colonize from continents to islands, over time leading to the evolution of separate island species. Scientists have theorized that the reverse – colonizing from islands to continents – seems unlikely, mainly because the few competitors on islands make thriving on the mainland difficult for island specialists. But a new study published in the Journal of Biogeography suggests a re-thinking of colonizing patterns.
 |
| Phyllops falcatus, a Cuban fruit-eating bat, is hanging in its diurnal roost in an exposed branch of a tree. Adaptations such as a short, blunt skull that enables greater bite force, or a window of translucent skin on the wing that enables the bat to see predators approaching the roost, might have given them an edge over competitors when their ancestors reached the tropics of the Americas [Credit: Stony Brook University] |
The big question, says Professor Dávalos, is how could these tiny frugivorous bats compete for food with the dozens of competitor species on the continental Americas?
The researchers provide two explanations: Short-faced bats evolved with a unique powerful bite and may have been able to eat what other bats could not, and they also possessed unusual semi-transparent windows on their wings which enabled them to see predators while camouflaged among leaves and trees. While demonstrating reverse colonization among bats with dozens of competitor species suggests this process is not as rare as previously thought, the features of Short-faced bats hint that groups with a special features or capabilities may fare better in the perilous competition for continental survival.
She emphasized that this rare example of reverse colonization paves the way for understanding how and which species succeed in the long run.
Source: Stony Brook University [January 31, 2018]
