In a recent study, National Geographic Explorer Rosser demonstrated how hybridization can lead to the evolution of new species. The research revealed that the two parental species of H. elevatus had remained distinct for approximately two million years until a DNA mishmash occurred around 180,000 years ago during a global ice age when the Amazonian rainforest served as a biodiversity refugium.
David Lohman, a professor at the City College of New York who was not involved in the study, praised the findings. Lohman is part of a team that recently constructed the most comprehensive butterfly tree of life and stated that researchers had demonstrated a phenomenon in nature that many had hypothesized but few had proven.
Scientists have long sought to find an animal species that originated from two parental species combining their genomes, with mules being an example of a hybrid. The discovery of the hybrid species and its two parental species in the rainforests of South America is significant. If Charles Darwin had explored further inland when the HMS Beagle docked in Lima in 1835, he would have encountered these species as well.
The Heliconius butterflies are unique in that they consume flower pollen, which they use to produce cyanogenic glycosides that make them distasteful to predators. They display bright, high-contrast aposematic coloration that signals their unpalatability to potential threats. This discovery sheds new light on how hybridization can impact evolution and highlights the importance of continued research in this field.