Monarch butterflies are prone to a parasite that renders the pupa unable to emerge and reduces the adults ability to fly. To overcome this attack, female monarchs choose where to lay their eggs specifically to prevent the parasite from doing damage.
The protozoan ophryocystis elektroscirrha parasite resides in the abdomen of the butterfly. Mothers pass it on to their offspring. However, to ward off the tummy bugs, mama butterflies look for a specific milkweed plant upon which their larvae, the caterpillar, can feed. The tropical, or curassavica, species of milkweed, out of several hundred species that butterflies feed upon is the medicine of choice for an infected mother.
The caterpillar stage of the monarch is colored yellow, black, and white, which in the animal kingdom spells poisonous-to-eat. As an adult, the lovely orange, black, and white we so admire, is also a warning that keeps predators at bay. The larvae ingests cardenolides from its herbivore – discouraging food source. This dinner makes the larvae itself toxic, no longer a tasty morsel for ants, nor as an adult as a snack for birds or mice. Blue jays quickly barf up a milkweed-fed monarch.
However, black-beaked orioles and black headed grosbeaks are common predators that can tolerate cardenolides. Orioles winter in Mexico along with the butterflies and find that the monarch-infested trees present an opportunity for feasting. The monarchs overwinter in dense clusters on the boughs and trunks of oyamel firs in central Mexico. These cloudbelts protect the butterflies from freezing on cold nights. However, logging of these monarch motels is an additional threat to the butterflies who go south for the winter.
Jaap de Roode, an evolutionary biologist at Emory University works in the lab bearing his name, one of a few in the world studying monarchs. He focuses on why parasites harm their hosts. His team determined the monarch?s preference for plants with highly concentrated cardenolides.
Monarchs are studied using HPLC [High Performance Liquid Chromatography] at the University of Michigan.
De Roode?s co-researcher is chemical ecologist Mark Hunter at the University of Michigan. De Roode told us that "Mark Hunter used High Performance Liquid Chromatography [HPLC] to identify and quantify the cardenolides in the milkweed plants." Liquid chromatography, in its various forms, is one of the most powerful tools in analytical chemistry. HPLC can separate, identify, and quantitate the compounds that are present in any sample that can be dissolved in a liquid. HPLC instruments consist of a reservoir of mobile phase, a pump, an injector, a separation column, and a detector. A Royal Society of Chemistry explains the process in a video below:
High Performance Liquid Chromatography video
Humans, not unlike Bambi, are fascinated by the colorful varieties of butterflies.
These lovely insects are honored in jewelry and décor, such as a Swarovski Aurora Boreale Crystal piece. In addition to providing us joy because of their beauty, butterflies may lead to information that could provide us with health benefits. Hunter says: "Studying organisms engaged in self-medication gives us a clue as to what compounds might be worth investigating for their potential as human medicines."