View Author
feather moult vertebrae warbler moment lordotic willow lordosi lordotic vertebrae journal willow warblers sampling 38- vertebra chiffchaff volume calci fication stiffness signi shaft group length fatigue rachi fl ight feathers dorso-ventral willow warbler feathers weber ground specimen effect phylloscopu sea bass adult column signi ficantly zoological society structure c c journal respect fl ight performance / journal study willow warbler activity spine cortex curvature keratin haemal value hedenstrom ridge fl exural stiffness area i muscle activity segment species fication zoology calci aquaculture ficant skeleton biomechanic animal migration quality schedule cortex volume divanach trochilu muscle dorsal micro-ct koumoundouro trade-off ficantly material variation
2 Most Recent Publications
|
Flight feather shaft structure of two warbler species with different moult schedules: A study using high-resolution X-ray imaging
(Article)
Weber, T.P. Kranenbarg, S. Hedenström, A. Waarsing, J.H. Weinans, H.H. |
2010-02-01
|
|
Lordotic vertebrae in sea bass (Dicentrarchus labrax L.) are adapted to increased loads
(Article)
Kranenbarg, S. Waarsing, J.H. Muller, M. Weinans, H.H. Leeuwen, J.L. van |
2005-06-01
|
