Fossilized fly pupae are about as exciting to look at as a handful of dingy, stale Rice Krispies. But despite their humdrum appearance, fossil pupae can hold fascinating secrets inside; in some cases, they preserve deadly examples of insect parasitism. Scientists recently investigated hundreds of fossil pupae — the inactive life stage between larva and adult — dating to the Paleogene period (about 65 million to 23 million years ago). They found unexpected stowaways inside: four new wasp species.
Ancient alien wasp hijacked fly pupae, ate flies inside
Many species of parasitic wasps are around today, targeting caterpillars, fly maggots, spiders and ladybugs as living meals for their ravenous young. One enterprising wasp species — named Euderus set, after the Egyptian god of evil and chaos — chooses targets that are in its own family, parasitizing other species of parasitic wasps. But fossil evidence of parasitism in ancient wasps is exceptionally rare. Previously, the only example came from a single mineralized fly pupa from a site in Quercy, a region in southwestern France, dating to about 40 million to 30 million years ago, the researchers wrote.
For the new study, the scientists examined 1,510 pupae, also from the Quercy site in France. They found 55 pupae that showed signs of being parasitized, and 52 pupae preserved the bodies of adult wasps. It's possible that the tough exoskeleton of adults was more resistant to decay than the softer tissues of their earlier developmental stages; this could explain why adult wasps were more abundant in the fossils, according to the study.
In addition to X. resurrecta, the scientists found more wasp species inside the fly pupae: Xenomorphia handschini, Coptera anka and Palaeortona quercyensis. Digital reconstruction of the fossilized wasps' delicate bodies pointed to subtle differences that defined the wasps as different species, and even hinted at the ecological niches they may have filled; the head and body shapes of C. anka and P. quercyensis suggested that they would have been better adapted to life on the ground than their Xenomorph-named cousins, the study authors reported.