Beautiful and graceful, varied and enchanting, small but approachable, butterflies lead you to the sunny side of life. And everyone deserves a little sunshine. ~Jeffrey Glassberg
I am at loss of words to describe the beauty of butterflies. The intricate wing patterns with amazing color combinations will definitely be an inspiration to artists and designers. How often have you wished to be a butterfly flying from flower to flower leading a carefree life? But it is not easy to be a butterfly as it has its own challenges, like protecting itself from its predators. To overcome this challenge some butterflies have mastered the art of deception.
Crimson rose – Unpalatable butterfly
As a protection strategy some poisonous butterflies like the Common Rose (Pachliopta aristolochiae) and the Crimson Rose (Pachliopta hector) are brightly colored. The bright coloration warns the predators that these butterflies are unpalatable. These butterflies have a slow flight as they are not attacked by predators.
Now how do other butterflies which are non poisonous protect themselves?
- Rapid flight with iridescent wings to dodge predators
- Camouflage in the surroundings they are found
- Eyespots and tails are found in some butterflies and which divert the attention of predators from the more vital head region.
- Mimicking the wing patterns of toxic butterflies, a phenomenon known as Batesian mimicry
Crimson Rose (poisonous ) avoided by predators
Common Mormon(non poisonous ) mimicking the wing pattern of the Crimson rose
“Some female Common Mormons look similar to the male, but others mimic the color patterns of two unrelated species the Common Rose (Pachliopta aristolochiae) and the Crimson Rose (Pachliopta hector). It is interesting that males in this species are always non-mimetic and females may be mimetic. It could be due to the reason that females carry eggs and therefore their abdomens are much heavier compared to males, making them slower in flight and therefore easier prey for birds. This special vulnerability to predation makes females more dependent on mimicry for their survival compared to males. Females have a particular advantage if they mimic locally common toxic Rose butterflies.”- Krushnamegh Kunte.
Common Rose (poisonous )
Common mormon (non poisonous) mimicking the Crimson Rose
A single gene regulates the complex wing patterns, colors and structures required for mimicry in swallowtail butterflies, according to a study led by scientists from the National Center for Biological Sciences, India, and the University of Chicago, USA. The work published in Nature redefines the mimicry supergene in this butterfly: for over half a century biologists believed it to be a cluster of tightly-linked genes, but the current study shows that it is a single gene. “Our study throws new light on the intriguing genetic basis of wing patterning in a butterfly that mimics others,” said Dr. Krushnamegh Kunte, Reader (Assistant Professor) and Ramanujan Fellow at NCBS and the lead author of the paper.
“The co-option of this well-known sexual differentiation gene in controlling polymorphic mimicry is indeed an unexpected and exciting discovery. doublesex is a highly conserved and well-characterized gene in insects. Its function in sexual differentiation is understood a fair bit, but previously it had not been implicated in wing patterning,” said Dr. Kunte.
For Dr. Kunte who grew up in Pune watching the Common Mormon butterfly, it was a ‘natural progression’ to study the underlying mechanisms of mimicry, he said. “I grew up watching this splendid butterfly and the toxic species that it mimics in my neighborhood. Later, during my development as an evolutionary biologist, this childhood fascination of swallowtail butterflies turned into an academic research program to find out how selection facilitates and shapes the diversification of animal lifeforms. Swallowtail butterflies is what I have known in so many ways for so long, therefore trying to understand the ecological and genetic controls of mimicry and polymorphism in this species was a natural progression.”
Kunte, K., Zhang, W., Tenger-Trolander, A., Palmer, D.H., Martin, A., Reed, R.D., Mullen, S.P., and Kronforst, M.R. 2014. doublesex is a mimicry supergene. Nature, Published online 5 March 2014. DOI:10.1038/nature13112
Some links on this finding can be found below