Kinematics of the quadrate bone during feeding in mallard ducks
| Autor: | Keith A. Metzger, Elizabeth L. Brainerd, David B. Baier, Megan M. Dawson |
|---|---|
| Rok vydání: | 2011 |
| Předmět: |
Physiology
Coordinate system Video Recording Kinematics Motor Activity Aquatic Science Rotation Imaging Three-Dimensional Quadrate bone Animals Molecular Biology Joint (geology) Ecology Evolution Behavior and Systematics Cranial kinesis Physics Skull Beak Mandible Feeding Behavior Anatomy Ellipsoid Biomechanical Phenomena Ducks Photogrammetry Insect Science Female Animal Science and Zoology |
| Zdroj: | Journal of Experimental Biology. 214:2036-2046 |
| ISSN: | 1477-9145 0022-0949 |
| Popis: | Avian cranial kinesis, in which mobility of the quadrate, pterygoid and palatine bones contribute to upper bill elevation, is believed to occur in all extant birds. The most widely accepted model for upper bill elevation is that the quadrate rotates rostrally and medially towards the pterygoid, transferring force to the mobile pterygoid–palatine complex, which pushes on the upper bill. Until now, however, it has not been possible to test this hypothesis in vivo because quadrate motions are rapid, three-dimensionally complex and not visible externally. Here we use a new in vivo X-ray motion analysis technique, X-ray reconstruction of moving morphology (XROMM), to create precise (±0.06 mm) 3-D animations of the quadrate, braincase, upper bill and mandible of three mallard ducks, Anas platyrhynchos . We defined a joint coordinate system (JCS) for the quadrato-squamosal joint with the axes aligned to the anatomical planes of the skull. In this coordinate system, the quadrate's 3-D rotations produce an elliptical path of pterygoid process motion, with medial and rostrodorsal then lateral and rostrodorsal motion as the upper bill elevates. As the upper bill depresses, the pterygoid process continues along the ellipsoidal path, with lateral and caudoventral then medial and caudoventral motion. We also found that the mandibular rami bow outwards (streptognathy) during mandibular depression, which may cause the lateral component of quadrate rotation that we observed. Relative to the JCS aligned with the anatomical planes of the skull, a second JCS aligned with quadrato-squamosal joint anatomy did not produce a simpler description of quadrate kinematics. * ACS : anatomical coordinate system JCS : joint coordinate system M : quadrato-mandibular joint M×Qrx : mandibular Z -axis rotation cross-correlated with quadrate X -axis rotation M×Qry : mandibular Z -axis rotation cross-correlated with quadrate Y -axis rotation M×Qrz : mandibular Z -axis rotation cross-correlated with quadrate Z -axis rotation Mrx : rotation about the X -axis of the quadrato-mandibular joint Mry : rotation about the Y -axis of the quadrato-mandibular joint Mrz : rotation about the Z -axis of the quadrato-mandibular joint N : nasofrontal joint N×M : nasofrontal Z -axis rotation cross-correlated with mandibular Z -axis rotation N×Qrx : nasofrontal Z -axis rotation cross-correlated with quadrate X -axis rotation N×Qry : nasofrontal Z -axis rotation cross-correlated with quadrate Y -axis rotation N×Qrz : nasofrontal Z -axis rotation cross-correlated with quadrate Z -axis rotation Nrx : rotation about the X -axis of the nasofrontal joint Nry : rotation about the Y -axis of the nasofrontal joint Nrz : rotation about the Z -axis of the nasofrontal joint Ntx : translation about the X -axis of the nasofrontal joint Nty : translation about the Y -axis of the nasofrontal joint Ntz : translation about the Z -axis of the nasofrontal joint Q : quadrato-squamosal joint Qrx : rotation about the X -axis of the quadrato-squamosal joint Qry : rotation about the Y -axis of the quadrato-squamosal joint Qrz : rotation about the Z -axis of the quadrato-squamosal joint SVD : singular value decomposition XROMM : X-ray reconstruction of moving morphology |
| Databáze: | OpenAIRE |
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