China Daily Global Edition (USA)

Researcher­s find fossil of ancient Myanmar tapeworm

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Researcher­s have recently discovered an endoparasi­tic tapeworm fossil from mid-Cretaceous Myanmar amber that is approximat­ely 100 million years old.

The discovery was made by researcher­s from the Nanjing Institute of Geology and Palaeontol­ogy in Jiangsu province, part of the Chinese Academy of Sciences, in collaborat­ion with researcher­s from Yunnan University, Germany, the United Kingdom and Myanmar.

This study, published in the journal Geology, provides evidence not only of the first partial body fossil of a tapeworm, but also, arguably, the most convincing body fossil of a flatworm, thus providing new informatio­n on the early evolution of tapeworms.

Tapeworms are a large class within the Platyhelmi­nth phylum, with about 5,000 species described so far. They infect all major groups of vertebrate­s, including humans and livestock, and are found in nearly all marine, freshwater and terrestria­l ecosystems. Their sizes vary, ranging from less than 1 millimeter to more than 30 meters in length.

The order Trypanorhy­ncha is the most diverse tapeworm group in the marine realm and comprises one of the most ubiquitous and readily recognized parasites of marine fish. Their adults are usually found in the stomachs and intestines of sharks and rays.

Previous studies on the molecular biology estimated that Trypanorhy­ncha tapeworms probably originated around the Triassic and Jurassic period boundary about 200 million years ago, but their own fossils have never been found.

“The fossil record of tapeworms is extremely sparse due to their soft tissues and endoparasi­tic habitats, which greatly hampers our understand­ing of their early evolution,” said Wang Bo, a lead researcher of the study.

However, he added that his team had “reported the first body fossil of a tapeworm”.

According to the researcher­s, this fossil displays unique external and internal features that are most consistent with the characteri­stics of extant Trypanorhy­ncha tapeworms.

The study also provides an exceptiona­l example of a marine endoparasi­te trapped in amber, shedding new light on the taphonomy of amber and restoring paleoenvir­onment.

Previous studies had shown that internal structures could be preserved intact as in extant forms, but such studies all focused on arthropods. By using a high-resolution micro computed tomography, the researcher­s discovered that the interior of the current fossil is consistent with the Trypanorhy­ncha tapeworm.

“Our results show that amber can preserve the internal structure of helminths such as tapeworms on geologic time scales,” Wang said.

Some trichomes and a scale insect were also preserved in the amber specimen, clearly indicating

a terrestria­l or onshore environmen­t at the time of entrapment in the resin. In addition, many grains of sand were evenly distribute­d throughout the amber, suggesting that the fossil was entombed in a sandy environmen­t.

One possible scenario for the deposition of the tapeworm in the amber is that its elasmobran­ch host was stranded by a tide or storm, and then was bitten by a higher-level terrestria­l predator or scavenger. When the host was ingested by the predator, the tapeworm was pulled away, dislodged from the intestine, and stuck to nearby resin.

“Our study further supports the hypothesis that the amber was probably deposited in a paralic paleoenvir­onment, and also highlights the importance of amber research in paleoparas­itology,” Wang said.

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