Similar to the tyrannosaurus dinosaur Tyrannosaurus Rex, a study conducted by paleontologists at the University of Bristol revealed that other massive carnivorous dinosaurs, while having skulls designed for formidable bite forces, exhibited much weaker bites and specialized instead in physical reduction and clefts.

Dr. Andrew Lowe, a paleontologist at the University of Bristol, noted:

“Tyrannosaurs developed skulls that were robust and capable of grinding, while other species exhibited relatively weaker but more specialized skull structures, indicating diverse feeding strategies despite their large size.”

“In essence, there wasn’t a singular ‘best’ skull design for being a predatory giant; a variety of designs functioned effectively.”

Dr. Lowe and his colleague, Dr. Emily Rayfield, sought to understand how bipedalism affected skull biomechanics and feeding methods.

Historically, it was known that predatory dinosaurs evolved in distinct regions of the world at varying times, showcasing a range of skull shapes, even as they reached similar sizes.

These observations prompted questions about whether the skulls were functionally similar underneath or if significant differences existed in predatory behaviors.

To explore the connection between body size and skull biomechanics, the researchers employed 3D techniques, including CT scans and surface scans, to analyze skull mechanics, assess feeding performance, and measure bite strength across 18 species of theropods, a category of carnivorous dinosaurs ranging from small to gigantic.

While they anticipated some variations among species, the analysis astounded them as it revealed distinct biomechanical differences.

“For instance, the Tyrannosaurus Rex skull, designed for high bite force, ultimately compromised on stress resistance,” Dr. Lowe explained.

“Conversely, other large species like Giganotosaurus exhibited a calculated stress pattern, indicating a relatively gentle bite.”

“This insight led us to consider how multiple evolutionary paths could exist for life as a massive, carnivorous organism.”

Surprisingly, skull stress did not exhibit a consistent increase with size; some smaller species experienced higher stress levels than certain larger counterparts due to greater muscle mass and bite force.

The findings demonstrate that being a predatory giant does not always equate to having a bone-crushing bite.

In contrast to the Tyrannosaurus Rex, other dinosaurs, such as Spinosaurus and Allosaurus, evolved into giants while maintaining weaker bites better suited for slashing and shredding flesh.

“I often liken Allosaurus to modern Komodo Dragons in terms of feeding behavior,” Dr. Lowe commented.

“On the other hand, the larger tyrannosaurs had skulls optimized for high bite force, akin to modern crocodiles that crush their prey.”

“This biomechanical variability suggests that dinosaur ecosystems could have supported a broader spectrum of ecology among giant carnivores than previously thought, indicating reduced competition and increased specialization.”

This study will be featured in the journal Current Biology this week.

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Andre J. Lowe & Emily J. Rayfield. 2025. The carnivorous dinosaur lineage employs a variety of skull performances in huge sizes.Current Biology 35 (15): 3664-3673; doi: 10.1016/j.cub.2025.06.051