Application of X-Ray Computed Tomography Reveals Exceptionally Preserved Fossils in Ohio Silica Shale

1. APPLICATION OF X-RAY COMPUTED TOMOGRAPHY REVEALS A (FOOL’S) GOLD MINE OF EXCEPTIONALLY PRESERVED FOSSILS IN THE SILICA SHALE (DEVONIAN) OF OHIO Prescott J. Vayda Loren E. Babcock Emma A. Oti School of Earth Sciences The Ohio State University Columbus, Ohio 43210

2. Introduction • X-ray Computed Tomography (XCT) is emerging as a powerful tool across various disciplines of the Earth Sciences • In paleontology, it provides detailed, non-destructive visualization • In sedimentology/stratigraphy, it allows for detailed analysis of bedforms • XCT data is easily accessible and easily manipulated using freely available software • Each scan stores information from the XCT scanner and any software used to modify the scans

3. Purpose • In this study, XCT was used to visualize preserved soft (nonbiomineralized) morphology preserved through pyritization • XCT can be used to visualize specimens and reveal anatomical, taphonomic, and sedimentologicinformation

4. Materials and methods • Specimens were collected from the Silica Shale (Devonian), NW Ohio Sylvania Silica Paulding Kesling (1975)

5. Data sources: specimens • Trilobites: Phacops • Brachiopods: Paraspirifer, Pseudoatrypa, Mucrospirifer • Corals: Heliophyllum

6. Instrumentation and software • Neurologica CereTom – mobile, medical XCT scanner • ImageJ – scan imaging software, free to download • Seg3D – image segmentation software, free to download

7. Trilobite: Phacops rana • Trilobite on right has pyritized stomach, whereas trilobite on left has no internal remains

8. Trilobite: Phacops rana • Side view of enrolled individual • Pyritized gut extends down dorsal axis • Appendages present Gut

9. Trilobite: Phacops rana Front view Side (sagittal) view Top view Gut Gut Gut

10. Brachiopod: Paraspirifer bownockeri • Front oblique view showing pyritized brachidium with filaments, muscles, and other organs Stomach or Pedicle? Brachidium Muscle

11. New anatomical information from Parasprifier • Situsinversus in the brachidia • No external difference

12. Coral: Heliophyllum • Sagittal View • Cross-sectional Views a c b a b c

13. Trace fossils • Bioturbation, pyritized burrows Burrows

14. Taphonomic information • Shell bed, traces/bioturbation Trilobite Shell Bed

15. Conclusions • Approximately half of the studied enrolled trilobites show preserved guts. These are inferred to be corpses. • Most outstretched trilobites show little to no exceptional preservation, and most are likely molts rather than corpses. • Most brachiopods show pyritized brachidia, and some show pyritized lophophores, organs, and muscles. • Rugose corals show pyritized internal structures, including probable mesenteries. • Scan quality is affected by specimen size: details in specimens under 2 cm are not well resolved, and specimens larger than 10 cm are subject to imaging artifacts. • Preserved features smaller than the voxel size are not detectable on the scans.

16. Next steps • This method has enormous potential • Ideally, it would be desirable to establish a public data repository for XCT data • This could be part of a larger online repository for digitized collections sharable among museums and research institutions • Use scan data to generate physical 3D prints of internal structure • Scans can aid in identification of specimens at risk of pyrite or other degradation, so the method could aid in conservation of specimens