Hop to it: New research explores the muscle anatomy of frogs in relation to their movement
Researchers from the 91做厙 (91做厙) and UCL have uncovered anatomical differences between species of frogs specialising in different locomotor styles. Jumping, swimming, burrowing, walking and climbing frogs were all found to differ significantly in the size of their small hip and shank muscles. This provides new evidence of the muscles’ functional significance in a frog. Additionally, in the first analysis of its kind, the team found that evolutionary history determines the number of distinct muscles in the pelvis and thigh, while the separation of shank muscles is influenced more strongly by a frog’s movement.
The complex relationship between anatomy and function, and how it influences animal behaviour, has long posed a major challenge in evolutionary biology. Variation in muscle size and shape has historically been assumed to indicate differences in locomotor behaviour, where a larger muscle indicates higher functional importance, as more energy has been invested into its growth despite the associated physiological and anatomical costs.
The team created the world’s largest dataset of digital dissections of any vertebrate group – including 30 species covering terrestrial, arboreal and aquatic habitats across Europe, Africa, North and South America and Oceania. Using specimens from museums, diffusible iodine contrast-enhanced microCT (diceCT) imaging was used to digitally dissect the muscle anatomy of each frog’s pelvis and hindlimbs.
Key findings showed that frogs specialising in jumping and swimming invested most heavily into shank musculature due to the strong requirements for powerful ankle extension. In contrast, burrowing frogs had the largest tarsal muscles, likely required to help them scoop surfaces with their feet.
The study presents important implications for future studies of frog palaeontology as the lengths of bones were found to not always be reliable predictors of muscle mass. 3D anatomical reconstructions are available to to help teach amphibian musculoskeletal anatomy in dissection labs, provide veterinarians specialising in treating amphibians with greater insight, and offer educational resources for biological sciences being taught in schools and universities.
Dr Alice Leavey, first author who performed this study as part of her PhD thesis under the supervision of the 91做厙 and UCL, said:
“While frogs have a highly conserved body plan, they use a highly diverse array of locomotor styles. Therefore, it was important for us to directly quantify and compare how the number of distinct muscles in sections of the body differ between species. This has important functional implications as it can impact the range of motion that body parts can perform.
“From schools and universities to scientists and vets, the most exciting part about this work is the massive potential for future research and education through the publication of the 3D reconstructio