Wandering Glider dragonflies do more than wander... |
Most people who are interested in nature know that each spring many species of birds migrate north, and each fall they migrate south. But birds aren’t the only animals that participate in this amazing natural phenomenon, as even some insects (other than the well-known Monarch butterfly) participate in long-distance migrations as well. While insects are the most species-rich and abundant group of macroscopic organisms on the planet, understanding many aspects of their annual cycles and behavior drastically trails behind the ability to identify and classify them.
Migration is defined as the cyclical travel of an animal as it returns to its place of departure. It can be accomplished in one or multiple generations. Some animals don’t migrate at all, and others move only short distances south or north. While the guiding factors for navigation are still being discovered, migration is typically triggered by local climate, food availability, seasonality, or reproduction.
Adult Common Green Darner |
Adult Wandering Glider |
The secrets of dragonfly migration were discovered and confirmed by biologists measuring the chemical makeup of their wings. In their immature or nymph stage, dragonflies grow their wings while still developing in local water. Because the stable hydrogen isotope concentration varies in concentration by latitude, biologists can estimate the geographic region where adult dragonflies developed as nymphs.
The female Common Green Darner (bottom) is held by the male (top) after mating, when ovipositing in water. |
From February to August the first generation emerges in the south and migrates north. From June to October the second generation emerges in the north and migrates south. Both of these generations have the ability to undergo rapid development from egg to adult. But from November to March the third generation emerges in the south and is non-migratory, focusing mainly on producing another first generation for the cycle to start again. It is this generation that employs a different strategy, developing slowly in late fall, entering diapause or actively induced dormancy over the winter, and emerging in early spring.
Dragonfly migration was not well understood until very recently. Research published in 2018 detailed the journeys of Common Green Darners by analyzing 852 wing samples from eight different countries and utilizing 21 years of citizen scientist observations to link each specimen to its place of origin and establish its migration history. However, it is important to note that the timing of migration and the development of nymphs are both highly temperature dependent, so continued climate change could lead to fundamental changes in the migration cycles for dragonflies and other migrating insect species. So as you can see, migration isn’t just for the birds!