When conventional scientists call a fossil an early step in animal evolution, the claim may rest more on a reading of the fossil than on the fossil itself. In a new study, sharper images revealed that what had been identified as animal trails were actually fossilized microbes.1
The study reexamined tiny fossils from Brazil’s Tamengo Formation. Earlier work had treated some marks on the fossils as burrows made by small, wormlike animals. If that interpretation were true, those marks would have placed active animal life in the Ediacaran, below the Cambrian rocks where many complex sea creatures appear.2 But when the new study’s team used microtomography, nanotomography, and Raman spectroscopy to look inside the fossils, they found cells, coiled filaments, walls, organic matter, and pyrite. These are not marks of animals crawling through mud but are instead algae and bacteria preserved as body fossils.1
Trace fossils are indirect clues. A footprint, trail, or burrow does not preserve the animal itself. It preserves an effect. Engineers know the difference between a machine and a mark left by a machine. A scrape on a floor may suggest motion, but it cannot identify the device that left it without better data. In the same way, a fossil mark must be tested by shape, chemistry, and setting before rewriting life’s history.
This discovery weakens a common evolutionary move: using gaps to predict missing ancestors. Conventional scientists often look below the Cambrian for simpler animals that could lead to the sudden rise of many complex body plans. Yet this study shows creatures that are anything but simple, removing one supposed example. Better tools did not strengthen the earlier evolutionary reading. They weakened it.
Good data should be welcomed. But scientists should also be careful to not just see what they want to see based on that data. As this reevaluated research demonstrates, doing so can lead to erroneous deductions.
Clearly, claims about animal origins can change when fossils are checked more closely. The conclusion jumped from “early animals were here” to “microbial communities were here.” When fossils are judged by observed shape, chemistry, and setting, they not only are more likely to be interpreted accurately but also better reflect truly empirical science. Fully formed, fossilized life says less about evolution and more about the ordered complexity God placed in living systems from the beginning.
References
- Becker-Kerber, B. et al. 2026. Proposed Ediacaran Meiofaunal Burrows from Brazil Are Pyritized Algal/Microbial Consortia. Gondwana Research. 154: 335–347.
- Tomkins, J. P. 2020. The Fossils Still Say No: The Cambrian Explosion. Acts & Facts. 49 (12): 10–13.
Stage Image: Fossilized stromatolite formed by cyanobacteria. Microbial fossils like this show why careful analysis is needed before assigning fossil patterns to animal activity.
* Dr. Corrado earned a Ph.D. in systems engineering from Colorado State University and a Th.M. from Liberty University. He is a freelance contributor to ICR’s Creation Science Update, works in the nuclear industry, and is a Captain in the U.S. Naval Reserve.










