Muscle power: Bats power take-off using recycled energy
Dr Nicolai Konow (Brown University, USA), who led the research said: "Energy is stored in the triceps tendon, which is used to power elbow extension – in essence, elbow extension happens using "recycled" energy. State of knowledge, and our results, indicates that bats are unique among small mammals in stretching their tendons, as small mammal limb tendons are thought to be too thick and stiff to be stretched."
"By combining information about skeletal movement with information about muscle mechanics, we found that the biceps and triceps tendons of small fruitbats are stretched and store energy as the bat launches from the ground and flies vertically."
VIDEO: This video shows high-speed light video of the take off and climbing flight behaviors of the Seba's short tailed fruitbat.
Click here for more information.
The researchers used a cutting edge 3D imaging technology called XROMM (X-ray Reconstruction of Moving Morphology) that allows visualizing rapid internal skeletal movement. XROMM combines 3D models of bone morphology with movement data from biplanar x-ray video to create highly accurate re-animations of the 3D bones moving in 3D space. The researchers also used a novel method called fluoromicrometry, where small radio opaque markers are implanted directly into muscle, which allows measuring length change with high precision and accuracy during contractions.
VIDEO: This is a composite video, showing two orthogonal high-speed xray views of a Seba's short tailed fruitbat taking off from the ground and transitioning into vertical ascending flight towards a...
Click here for more information.
These findings indicate that the action of muscles powering animal movements through fluids may be influenced by series elasticity, and that at least some limb tendons in small mammals can be stretched by muscular and aerodynamic forces, enabling force control of joint movement.
This research will likely have relevance for the development of autonomous micro aircrafts and potentially also amphibious search and rescue vehicles.
INFORMATION:
"By combining information about skeletal movement with information about muscle mechanics, we found that the biceps and triceps tendons of small fruitbats are stretched and store energy as the bat launches from the ground and flies vertically."
VIDEO: This video shows high-speed light video of the take off and climbing flight behaviors of the Seba's short tailed fruitbat.
Click here for more information.
The researchers used a cutting edge 3D imaging technology called XROMM (X-ray Reconstruction of Moving Morphology) that allows visualizing rapid internal skeletal movement. XROMM combines 3D models of bone morphology with movement data from biplanar x-ray video to create highly accurate re-animations of the 3D bones moving in 3D space. The researchers also used a novel method called fluoromicrometry, where small radio opaque markers are implanted directly into muscle, which allows measuring length change with high precision and accuracy during contractions.
VIDEO: This is a composite video, showing two orthogonal high-speed xray views of a Seba's short tailed fruitbat taking off from the ground and transitioning into vertical ascending flight towards a...
Click here for more information.
These findings indicate that the action of muscles powering animal movements through fluids may be influenced by series elasticity, and that at least some limb tendons in small mammals can be stretched by muscular and aerodynamic forces, enabling force control of joint movement.
This research will likely have relevance for the development of autonomous micro aircrafts and potentially also amphibious search and rescue vehicles.
INFORMATION: