Phalangeal joints kinematics in ostrich (Struthio camelus) locomotion on sand

Zhang, Rui; Ji, Qiaoli; Han, Dianlei; Wan, Haijin; Li, Xiujuan; Luo, Gang; Xue, Shuliang; Ma, Songsong; Yang, Mingming; Li, Jianqiao

doi:10.1371/journal.pone.0191986

Cited by 12 publications

(7 citation statements)

References 16 publications

(31 reference statements)

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“…Pedal digit III supports the majority of the load (Schaller et al, 2011) and its (plantar) flexion provides the main propulsion force (Hutchinson, 2004;Smith et al, 2006). The metatarso-phalangeal III/1 joint acts as a shock absorber and elastic energy storage (Rubenson et al, 2011;Schaller et al, 2011) and its action differs between walking and running on a solid substrate (Zhang et al, 2017) but not on sand (Zhang et al, 2018), which supports our hypothesis that the unique foot proportions in S. spatzi evolved as an adaptation to the rugged landscapes of northwestern Africa.…”

Section: Discussion Extinct Ostrichesmentioning

confidence: 99%

Metric variation in the postcranial skeleton of ostriches,Struthio(Aves: Palaeognathae), with new data on extinct subspecies

Elżanowski

Louchart

2021

Zoological Journal of the Linnean Society

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As a result of numerous fossil and subfossil finds of ostriches, there is great demand for a comprehensive osteometric dataset for the living species and subspecies of the genus Struthio. We meet this demand by providing a set of > 100 measurements for a sample of 18 sexed skeletons, including all living and recently extinct species and subspecies of ostriches. We provide the first mensural data for two extinct subspecies, the hitherto questioned Struthio camelus spatzi from north-western Africa and the Arabian ostrich, Struthio camelus syriacus. The unique skeletal proportions of S. c. spatzi, with a relatively short wing, broad pelvis, short tarsometatarsus and big third toe, confirm the validity of this taxon and suggest an increased stability at the expense of cursoriality, which might have contributed to its extermination by humans. Our biometric analysis of the entire sample suggests a subtle sexual dimorphism in the ostrich skeleton, with females having more robust limb bones (especially wider and/or deeper at the ends) despite being on average smaller than males. If confirmed by further research, this size-independent dimorphism might reflect the independent regulation of the longitudinal and transverse dimensions of bones as revealed by several independent studies of morphological integration (covariance among morphological traits) in the avian skeleton.

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Section: Discussion Extinct Ostrichesmentioning

confidence: 99%

Metric variation in the postcranial skeleton of ostriches,Struthio(Aves: Palaeognathae), with new data on extinct subspecies

Elżanowski

Louchart

2021

Zoological Journal of the Linnean Society

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“…In a study of zebra-tailed lizard running, stride length decreased by 15% on the granular versus solid substrate, and the limb posture shifted from a digitigrade to a plantigrade position on solid versus granular substrate, respectively [2,4]. In ostriches, the kinematics of the toe joints were different while running on sand versus solid substrates, with a greater range of motion on the sand surface [5]. In a study using a hopping robot [6], the optimal strategy to achieve the highest height in a landing-jumping task was found to include a time delay between landing and push-off to avoid the transients associated with the relaxation of the granular media into a compacted state.…”

Section: Introductionmentioning

confidence: 99%

Comparison between the kinematics for kangaroo rat hopping on a solid versus sand surface

2022

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In their natural habitats, animals move on a variety of substrates, ranging from solid surfaces to those that yield and flow (e.g. sand). These substrates impose different mechanical demands on the musculoskeletal system and may therefore elicit different locomotion patterns. The goal of this study is to compare bipedal hopping by desert kangaroo rats ( Dipodomys deserti) on a solid versus granular substrate under speed-controlled conditions. To accomplish this goal, we developed a rotary treadmill, which is able to have different substrates or uneven surfaces. We video recorded six kangaroo rats hopping on a solid surface versus sand at the same speed (1.8 m s −1 ) and quantified the differences in the hopping kinematics between the two substrates. We found no significant differences in the hop period, hop length or duty cycle, showing that the gross kinematics on the two substrates were similar. This similarity was surprising given that sand is a substrate that absorbs mechanical energy. Measurements of the penetration resistance of the sand showed that the combination of the sand properties, toe-print area and kangaroo rat weight was probably the reason for the similarity.

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“…Histology and scanning electron microscopy showed the collagen fiber bundles in the proximal MTP were mainly wavy-type and likely involved in energy storage and shock absorption, those in the middle MTP were straight-type and mainly acted to change the force direction, but those in the distal MTP were not consistently arranged [ 30 ]. Significant differences in locomotion patterns were found between running and slow walking in the MTP joint of ostriches, but not in the interphalangeal joint of the 3rd or 4th toe [ 31 – 33 ]. Moreover, the 3rd toe as the main load-bearing element whilst the 4th toe as the complementary load-sharing element really worked as an “integrated system”, which primarily ensured the lateral stability of the permanently-elevated MTP joint [ 26 , 32 , 33 ].…”

Section: Introductionmentioning

confidence: 99%

“…Significant differences in locomotion patterns were found between running and slow walking in the MTP joint of ostriches, but not in the interphalangeal joint of the 3rd or 4th toe [ 31 – 33 ]. Moreover, the 3rd toe as the main load-bearing element whilst the 4th toe as the complementary load-sharing element really worked as an “integrated system”, which primarily ensured the lateral stability of the permanently-elevated MTP joint [ 26 , 32 , 33 ].…”

Section: Introductionmentioning

confidence: 99%

Study on bio-inspired feet based on the cushioning and shock absorption characteristics of the ostrich foot

Han

Zhang

et al. 2020

PLoS ONE

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As the main actuator of high-speed running, the ostrich feet are highly capable of cushioning and shock absorption. In this study, based on the elastic modulus scales and assembly order of the 3rd toe soft tissues and the functions of the metatarsophalangeal (MTP) joint, we designed fourteen bio-inspired feet. The impact process on loose sand was simulated on the finite element software Abaqus. Also the stress distributions and deformations of each component of the bio-inspired feet were clarified. With the peak acceleration as the index, the cushioning performances of the bio-inspired feet were compared on both loose sand and solid ground through height-variable impact tests. The 15-15-15 HA (hardness unit) bioinspired foot showed lower peak acceleration and thereby better cushioning performance, but larger deformation, less-uniform stress distribution and thereby lower stability than the 15-35-55 HA bio-inspired foot. In fact, the silicon rubbers with different hardness degrees (which simulate the elasticity modulus scales of the digital cushions, fascia and skin) and the spring mechanism (which simulates the functions of the MTP joint) work as an "integrated system" of cushioning and shock absorption.

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Phalangeal joints kinematics in ostrich (Struthio camelus) locomotion on sand

Cited by 12 publications

References 16 publications

Metric variation in the postcranial skeleton of ostriches,Struthio(Aves: Palaeognathae), with new data on extinct subspecies

Metric variation in the postcranial skeleton of ostriches,Struthio(Aves: Palaeognathae), with new data on extinct subspecies

Comparison between the kinematics for kangaroo rat hopping on a solid versus sand surface

Study on bio-inspired feet based on the cushioning and shock absorption characteristics of the ostrich foot

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