|Photo: (Brian Berger/Instagram/@velvetboxsociety)|
In a find unlike anything seen before, a piece of opal from the island of java in indonesia holds some remarkable cargo: a stunningly preserved insect that may be at least four to seven million years old.
Previously, plenty of ancient insects have been found in amber, a gemstone made of fossilized tree resin. When animals became encased in the fresh resin, it entombs them rapidly enough to preserve the remains, often with exquisite detail.
On a trip to Indonesia, gemologist Brian Berger purchased an opal that appeared to have an insect entombed inside. Insects trapped in amber are a common-enough sight, but in a slow-forming gemstone like opal?
“Some researchers weren’t sure it was possible,” Berger told Gizmodo. “Now we know it’s possible. Is it likely? Extremely unlikely.”
Berger had the stone analyzed by the Gemological Institute of America, which confirmed its authenticity. He published a blog in Entomology about his finding and is looking for entomologists to further analyze it.
This specimen probably started as a typical insect trapped in amber—but then it appears to have gone through a second process called opalization, where some of the amber turned into opal. Opals are essentially spheres of silicon dioxide with water combined into their chemistry. Organic specimens can turn into opal similar to the way fossilization turns bone into stone; paleontologists in Australia have recently found an opalized dinosaur fossil.
At least, this is what Berger speculates happened. How the specimen formed remains unclear.
One entomologist, Ryan McKellar, curator of invertebrate palaeontology at the Royal Saskatchewan Museum in Canada, told Gizmodo “it is a pretty neat find, and a bit puzzling.” Though commenting only on Berger’s blog post in Entomology Today, McKellar said it “definitely looks like an insect inclusion.” He noted that he’d seen a comparable specimen in Canada, where a piece of wood was partially embedded in resin and partially exposed to the surrounding environment. The amber preserved the wood, but silica replaced the organic matter outside the amber and turned it into petrified wood.
McKellar thought that perhaps this specimen was formed by a similar process, and said he’d be interested in the age of the deposit where it was found.
Meanwhile, well-known American entomologist George Poinar Jr. from Oregon State University remained cautious. He found the specimen “interesting,” but wanted to wait for an entomologist’s opinion before offering any further comment without examining the object himself.