Bird terrestrial locomotion as revealed by 3D kinematics

Abourachid, Anick; Hackert, Rémi; Herbin, Marc; Libourel, Paul A.; Lambert, François; Gioanni, Henri; Provini, Pauline; Blazevic, Pierre; Hugel, Vincent

doi:10.1016/j.zool.2011.07.002

Cited by 53 publications

(57 citation statements)

References 33 publications

(47 reference statements)

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“…A rather continuous increase in hip motions when increasing speed can be expected for birds of all sizes (see below). This is supported by further X-ray videographic data on quail recently published by Abourachid et al (Abourachid et al, 2011), who found hip extension during stance and whose overall results are consistent with our data on quail during slow locomotion.…”

Section: Methodology and Comparison Of Angular Valuessupporting

confidence: 93%

“…Such a hip joint is also convenient for fulfilling other locomotor behaviors common for jackdaw, such as climbing into breeding burrows and chimneys or for diagonally walking on thin branches and manipulating items, etc. The relatively minute pelvic movements found in quail and tinamou in the present study have also been found in guinea fowl, ostrich and other quail individuals (Abourachid et al, 2011;Gatesy, 1999a;Rubenson et al, 2007). Locomotion with minute pelvic motions, as in grounddwellers and the rather waddling walk of Passeriformes or Anseriformes, do not represent different strategies of avian terrestrial locomotion.…”

Section: Medio-lateral Motions Of the Limb Pelvic Rotation And The Hsupporting

confidence: 71%

“…C. monedula). Currently, knowledge of intralimb coordination of avian terrestrial locomotion is restricted to guinea fowl (Gatesy, 1999a;Gatesy, 1999b), chicken (Jacobson and Hollyday, 1982;Manion, 1984;Muir et al, 1996), quail (Reilly, 2000;Abourachid et al, 2011), pigeon (Cracraft, 1971), magpie (Verstappen et al, 2000) and several Struthioniformes (e.g. Abourachid and Renous, 2000;Jindrich et al, 2007;Rubenson et al, 2007;Smith et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…Although Gatesy (Gatesy, 1999a) demonstrated the necessity of applying X-ray technology for an accurate and reproducible analysis of the kinematics of avian terrestrial locomotion, very few studies have since used this method in analyses of avian bipedalism (Abourachid et al, 2011;Provini et al, 2012). As proximal segments and joints, as well as the pelvis, are obscured by feathers, wings and musculature, X-ray videography is crucial to the precise quantification of avian hindlimb kinematics (Gatesy, 1999a;Abourachid et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Comparative intralimb coordination in avian bipedal locomotion

Stoessel

Fischer

2012

Journal of Experimental Biology

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SUMMARYAnalyses of how intralimb coordination during locomotion varies within and across different taxa are necessary for understanding the morphological and neurological basis for locomotion in general. Previous findings suggest that intralimb proportions are the major source of kinematic variation that governs intralimb coordination across taxa. Also, independence of kinematics from habitat preference and phylogenetic position has been suggested for mammals. This leads to the hypothesis that among equally sized bird species exhibiting equal limb proportions, similar kinematics can be observed. To test this hypothesis, the bipedal locomotion of two distantly related ground-dwelling bird species (Eudromia elegans and Coturnix coturnix) and of a less terrestrial species (Corvus monedula) was investigated by means of a biplanar high-speed X-ray videographic analysis. Birds exhibited similar intralimb proportions and were filmed over a broad range of speed while moving on a treadmill. Joint and limb element angles, as well as pelvic rotations, were quantified. Regarding fore-aft motions of the limb joints and elements, a congruent pattern of intralimb coordination was observed among all experimental species. The sample of species suggests that this is largely independent of their habitat preference and systematic position and seems to be related to demands for coping with an irregular terrain with a minimum of necessary control. Hence, the initial hypothesis was confirmed. However, this congruence is not found when looking at medio-lateral limb motions and pelvic rotations, showing distinct differences between grounddwellers (e.g. largely restricted to a parasagittal plane) and C. monedula (e.g. increased mobility of the hip joint). Supplementary material available online at

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Section: Methodology and Comparison Of Angular Valuessupporting

confidence: 93%

Section: Medio-lateral Motions Of the Limb Pelvic Rotation And The Hsupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Comparative intralimb coordination in avian bipedal locomotion

Stoessel

Fischer

2012

Journal of Experimental Biology

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“…insects (Dangles et al, 2006;Wu et al, 2008;Nguyen et al, 2010;Truong et al, 2012); fish (Korff & Wainwright, 2004;Herrel et al, 2005;Huber et al, 2008;Wroe et al, 2008;Huber et al, 2009;Mara et al, 2009;Habegger et al, 2010;Tran et al, 2010); rodents (Bracha et al, 2003;Sakatani & Isa, 2004;Herbin et al, 2007;Morita et al, 2008;Beare et al, 2009;Fu et al, 2009;Stefen et al, 2011); reptiles (Deban & O'Reilly, 2005;Herrel & O'Reilly, 2006;Fuller et al, 2011;Schaerlaeken et al, 2011); birds (Westneat et al, 1993;Estrella & Masero, 2007;Abourachid et al, 2011;Dawson et al, 2011;Smith et al, 2011); as well as in humans (Arampatzis et al, 1999;Yoganandan et al, 2002;Imura et al, 2008;Shan, 2008;Bakker et al, 2009;Steeve, 2010). The main topics treated are flight features, bite force analysis, cognitive functions assessments by realtime tracking, anatomical and physiological study of locomotion, evaluation of mandibular motion and muscle activity during ingestion or vocalization, the effect of food type on feeding efficiency, 3-D bones reconstruction for motion morphology assessments, among others.…”

Section: The Study Of Biomechanics and Motion Analysismentioning

confidence: 99%

Feeding behaviour of broiler chickens: a review on the biomechanical characteristics

Neves

Banhazi

Nääs

2014

Rev. Bras. Cienc. Avic.

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Feed related costs are the main drivers of profitability of commercial poultry farms, and good nutrition is mainly responsible for the exceptional growth rate responses of current poultry species. So far, most research on the poultry feeding behaviour addresses the productivity indices and birds' physiological responses, but few studies have considered the biomechanical characteristics involved in this process. This paper aims to review biomechanical issues related to feed behaviour of domestic chickens to address some issues related to the feed used in commercial broiler chicken production, considering feed particle size, physical form and the impact of feeders during feeding. It is believed that the biomechanical evaluation might suggest a new way for feed processing to meet the natural feeding behaviour of the birds.

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Muscle architecture of the hindlimb of Tyto furcata (Aves Strigiformes): Highlights in owl morphology

Tudisca

Mosto

Picasso

2023

The Anatomical Record

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The American barn owl is a nocturnal bird of prey in which hind limb movements are a key factor in obtaining food; however, the architectural properties of its hind limb muscles have not been studied. This study sought to identify functional trends in the Tyto furcata hindlimb muscles by studying muscular architecture. The architectural parameters of the selected hip, knee, ankle, and digit muscles were studied in three specimens of the Tyto furcata and joint muscular proportions with an additional dataset were calculated. Previously published information on Asio otus was used for comparison. The flexor muscles of the digits had the highest muscle mass. Regarding architectural parameters, the main flexor of the digits (flexor digitorum longus) and the muscles that extend the knee and ankle joints (femorotibialis and gastrocnemius) showed a high physiological cross‐sectional area (PCSA) and short fibers, allowing powerful digit flexion and knee and ankle extension. These mentioned features are in accordance with hunting behavior, in which prey capture is not only closely linked to the flexion of the digits but also to the movements of the ankle. During hunting, the distal hind limb is flexed and then fully extended at the moment of contact with the prey, whereas the digits are close to grasping the prey. The hip muscles showed a predominance of extensors over flexors, which were more massive, with parallel fibers and without tendons or short fibers. These features lead to a higher capacity to generate velocity to the detriment of forces, as indicated by the high values of the architectural index, their relatively low PCSA, and short or intermediate fiber length, which enhance the control of the joint positions and muscle length. Compared to Asio otus, Tyto furcata showed longer fibers; however, the relationship between fiber length and PCSA was similar for both species.

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Bird terrestrial locomotion as revealed by 3D kinematics

Cited by 53 publications

References 33 publications

Comparative intralimb coordination in avian bipedal locomotion

Comparative intralimb coordination in avian bipedal locomotion

Feeding behaviour of broiler chickens: a review on the biomechanical characteristics

Muscle architecture of the hindlimb of Tyto furcata (Aves Strigiformes): Highlights in owl morphology

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