Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Life Sciences
Dynamics And Thermal Sensitivity Of Ballistic And Non-Ballistic Feeding In Salamanders, Stephen M, Deban, Jeffrey A. Scales
Dynamics And Thermal Sensitivity Of Ballistic And Non-Ballistic Feeding In Salamanders, Stephen M, Deban, Jeffrey A. Scales
Integrative Biology Faculty and Staff Publications
Low temperature reduces the performance of muscle-powered movements, but in movements powered by elastic recoil mechanisms, this effect can be mitigated and performance can be increased. To better understand the morphological basis of high performance and thermal robustness of elastically powered movements, we compared feeding dynamics at a range of temperatures (5-25°C) in two species of terrestrial plethodontid salamanders, Plethodon metcalfi and Ensatina eschscholtzii, which differ in tongue muscle architecture and the mechanism of tongue projection. We found that Ensatina is capable of ballistic projection with a mean muscle mass-specific power of 2100 W kg(-1), revealing an elastic mechanism. Plethodon, …
How The Bending Kinematics Of Swimming Lampreys Build Negative Pressure Fields For Suction Thrust, Brad J. Gemmell, Stephanie M. Fogerson, John H. Costello, Jennifer R. Morgan, John O. Dabiri, Sean P. Colin
How The Bending Kinematics Of Swimming Lampreys Build Negative Pressure Fields For Suction Thrust, Brad J. Gemmell, Stephanie M. Fogerson, John H. Costello, Jennifer R. Morgan, John O. Dabiri, Sean P. Colin
Integrative Biology Faculty and Staff Publications
Swimming animals commonly bend their bodies to generate thrust. For undulating animals such as eels and lampreys, their bodies bend in the form of waves that travel from head to tail. These kinematics accelerate the flow of adjacent fluids, which alters the pressure field in a manner that generates thrust. We used a comparative approach to evaluate the cause-and-effect relationships in this process by quantifying the hydrodynamic effects of body kinematics at the body-fluid interface of the lamprey, Petromyzon marinus, during steady-state swimming. We compared the kinematics and hydrodynamics of healthy control lampreys to lampreys whose spinal cord had been …