Una nueva investigación revela que los minerales de azufre que forman fósiles en el archipiélago noruego son especialmente adecuados para la radiografía.
El análisis de rayos X ha llevado a la categorización de un fósil de reptil marino no identificado previamente descubierto en Edgeøya, Svalbard. La investigación fue publicada recientemente en la revista Más uno. El estudio, realizado por Victoria S. Engelschiøn de la Universidad de Oslo y su equipo, sugiere que este método podría revelar nuevos conocimientos sobre la vida antigua en el futuro.
La efectividad de las técnicas de rayos X en la investigación de restos fósiles bien conservados a menudo depende de las condiciones de conservación, que pueden variar mucho entre los diferentes sitios. A través de este estudio, Engelschiøn y su equipo demostraron que los fósiles del Medio
» datos-gt-translate-atributos=»[{» attribute=»»>Triassic Botneheia Formation in Svalbard, Norway, are particularly suitable for radiographic imaging.
The focus of this study is a fossil marine reptile whose remains are compressed and encased in shale. It lived around 240 million years ago, when Svalbard was covered by an ocean. After it died, it sank to the seafloor and was buried in the mud, then became extremely flattened over time. Originally excavated in 2008, the identity of this fossil has since been debated. X-ray imaging of the specimen revealed new details, including features of the skull and teeth that allowed researchers to conclude that this reptile most likely belongs to the ichthyosaur The authors also examined the mineralogy of fossils from this formation, identifying multiple forms of sulfate minerals, notably including sulfate baryte, which gives the fossils very high X-ray contrast, allowing for the high quality of radiographic imaging. The formation of these minerals is little understood but could be linked to conditions created by ancient volcanic activity. Thus, this study not only demonstrates the utility of X-ray techniques for studying these fossils, but also identifies conditions that can form fossils well-suited for these techniques, in Svalbard and potentially elsewhere.
The authors add: “The rocks from Svalbard are full of flattened marine reptiles. Our discovery of the exceptional X-Ray contrast means that we can learn much more about these ancient predators than we previously thought.”
Reference: “Exceptional X-Ray contrast: Radiography imaging of a Middle Triassic mixosaurid from Svalbard” by Victoria S. Engelschiøn, Aubrey J. Roberts, Ruben With and Øyvind Hammer, 31 May 2023, PLOS ONE.
DOI: 10.1371/journal.pone.0285939