@article{Andrada22_LJAP, type = {article}, key = {Andrada22_LJAP}, title = {Limb, Joint and Pelvic Kinematic Control in the Quail Coping with Steps Upwards and Downwards}, author = {Emanuel Andrada and Oliver Mothes and Heiko Stark and Matthew C. Tresch and Joachim Denzler and Martin S. Fischer and Reinhard Blickhan}, journal = {Scientific Reports}, year = {2022}, number = {1}, pages = {15901}, volume = {12}, abstract = {Small cursorial birds display remarkable walking skills and can negotiate complex and unstructured terrains with ease. The neuromechanical control strategies necessary to adapt to these challenging terrains are still not well understood. Here, we analyzed the 2D- and 3D pelvic and leg kinematic strategies employed by the common quail to negotiate visible steps (upwards and downwards) of about 10\%, and 50\% of their leg length. We used biplanar fluoroscopy to accurately describe joint positions in three dimensions and performed semi-automatic landmark localization using deep learning. Quails negotiated the vertical obstacles without major problems and rapidly regained steady-state locomotion. When coping with step upwards, the quail mostly adapted the trailing limb to permit the leading leg to step on the elevated substrate similarly as it did during level locomotion. When negotiated steps downwards, both legs showed significant adaptations. For those small and moderate step heights that did not induce aerial running, the quail kept the kinematic pattern of the distal joints largely unchanged during uneven locomotion, and most changes occurred in proximal joints. The hip regulated leg length, while the distal joints maintained the spring-damped limb patterns. However, to negotiate the largest visible steps, more dramatic kinematic alterations were observed. There all joints contributed to leg lengthening/shortening in the trailing leg, and both the trailing and leading legs stepped more vertically and less abducted. In addition, locomotion speed was decreased. We hypothesize a shift from a dynamic walking program to more goal-directed motions that might be focused on maximizing safety.}, doi = {10.1038/s41598-022-20247-y}, groups = {biomedical,locomotion}, isbn = {2045-2322}, url = {https://doi.org/10.1038/s41598-022-20247-y}, }