news-01072024-021245

A few years back, a researcher named Gerard Talavera was working in French Guiana, a country in South America. Talavera, who is from the Botanical Institute of Barcelona at CSIC, came across an unusual sight: painted lady butterflies.
These butterflies are not typically found in South America, leading Talavera to investigate how they ended up there. After extensive research involving multiple disciplines, scientists have uncovered an astonishing fact: these butterflies are capable of making a remarkable journey across the Atlantic Ocean.
The butterflies observed by Talavera in French Guiana appeared tired and had damaged wings. This particular species, known as Vanessa cardui, is renowned for its impressive migratory skills, hinting at a long-range migration. However, proving this theory is no easy task.
Painted lady butterflies are already known for their extensive migrations across the Sahara Desert. These migrations can span several generations and cover around 15,000 km between the Afrotropical and Palearctic regions. The presence of these butterflies in South America, beyond their usual habitat, indicated a unique dispersal event and a different type of migration.
To delve deeper into this phenomenon, researchers began by studying the wind patterns across the Atlantic. If the butterflies were indeed crossing the ocean, they would have to rely on these winds.
By reconstructing the wind trajectories leading up to the capture of the butterflies, the team discovered that the winds were exceptionally favorable for the butterflies to disperse from West Africa across the Atlantic. While this lent support to the oceanic migration theory, it was not definitive proof.
To confirm the migration theory, genetic analyses were conducted.
The researchers examined the DNA from pollen grains found on the butterflies, which revealed the presence of certain plants native to the Sahel region in West Africa. These plants bloom towards the end of the rainy season in West Africa, indicating that the butterflies had visited this area. This was the first clue in unraveling the mystery.
Subsequent genetic analyses of the South American butterfly samples compared to those from North America, Europe, and Africa showed that the South American butterflies were genetically similar to the European-African population, ruling out a North American origin.
Isotope analysis provided the final piece of evidence, indicating a likely origin in Western Europe and West Africa, aligning with the previous findings.
The study also considered the energetic requirements of the butterflies for such a journey. Researchers estimated that without wind assistance, the butterflies could travel up to 780 km before needing to refuel. However, with the help of easterly trade winds, they could cover up to 1,900 km. By employing a flight strategy combining active flight and gliding with the wind, similar to monarch butterflies, the painted ladies could make the transatlantic journey in 5 to 8 days, provided they had enough fat reserves.
This study sheds light on the remarkable long-distance dispersal abilities of insects and emphasizes the crucial role of trade winds in facilitating such migrations. The painted lady butterflies’ incredible journey serves as a testament to the adaptability and resilience of insects, underscoring the intricate relationship between biological processes and atmospheric dynamics in shaping our natural world. It also underscores the importance of preserving the delicate balance of ecosystems on our planet.
The discovery of this transoceanic flight opens up new avenues for research into insect migration and prompts a reevaluation of our understanding of insect dispersal capabilities and their impact on ecosystems. This study serves as a reminder of the hidden wonders of the natural world and the need to protect and conserve our planet’s biodiversity.