Ontogeny of food grasping in mouse lemurs: behavior, morphology and performance

Boulinguez-Ambroise, Grégoire; Zablocki‐Thomas, Pauline; Aujard, Fabienne; Herrel, Anthony; Pouydebat, Emmanuelle

doi:10.1111/jzo.12652

Cited by 13 publications

(11 citation statements)

References 37 publications

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“…Their results show that ontogenetic declines in relative digit length may be a common mammalian trend that has been selected for in primates. The authors find support for this, their 'functional grasping theory' of primate hand and foot growth (Young & Heard-Booth, 2016), which is also discussed in another recent paper (Boulinguez-Ambroise et al, 2019).…”

Section: Morphological and Biomechanical Approaches To Grasping And Msupporting

confidence: 66%

An interdisciplinary approach to the evolution of grasping and manipulation

Pouydebat

Bardo

2019

Biological Journal of the Linnean Society

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Section: Morphological and Biomechanical Approaches To Grasping And Msupporting

confidence: 66%

An interdisciplinary approach to the evolution of grasping and manipulation

Pouydebat

Bardo

2019

Biological Journal of the Linnean Society

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“…Also, longer forearms likely enhance the attachment surface for finger and hand flexors (Thomas et al, 2016), thus promoting stronger grip. Relatively longer limbs have consequently been observed to be related to high grasping performance in juvenile mouse lemurs (Boulinguez‐Ambroise et al, 2019). Furthermore, a greater anatomical mechanical advantage of the forearm extensors and flexors (i.e., triceps and biceps brachii) has been demonstrated in juvenile capuchin monkeys (Young, 2005) such that young individuals may produce greater output forces for a given amount of muscle force compared to adults.…”

Section: Introductionmentioning

confidence: 99%

“…As juveniles are not “miniature adults,” but rather experience concomitant changes in morphology and behavior during growth (Carrier, 1996; Herrel & Gibb, 2006; Young & Shapiro, 2018), studying ontogeny offers the opportunity to simultaneously and in “real‐time” explore the relations between behavior, performance, and morphology (Boulinguez‐Ambroise et al, 2019; Druelle, Young, & Berillon, 2017; Hurov, 1991; Russo & Young, 2011; Thomas et al, 2016). Such an approach might thus provide unique insights into the behavioral transitions that likely occurred during the evolution of the primate prehensile and locomotor systems.…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, a greater anatomical mechanical advantage of the forearm extensors and flexors (i.e., triceps and biceps brachii) has been demonstrated in juvenile capuchin monkeys (Young, 2005) such that young individuals may produce greater output forces for a given amount of muscle force compared to adults. Interestingly, previous studies have suggested different functional roles for the hind limb and the forelimb during primate locomotion, with grasping feet having a more substantial role in locomotion, freeing the forelimbs for other functions such as foraging (Boulinguez-Ambroise et al, 2019;Cartmill, 1974b;Chadwell & Young, 2015;Charles-Dominique, 1977;Patel et al, 2015). Recent studies on locomotor development have also revealed morphological or behavioral differences between the grasping functions of the hand and the foot.…”

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confidence: 99%

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Increased performance in juvenile baboons is consistent with ontogenetic changes in morphology

Boulinguez-Ambroise

Herrel

Bérillon

et al. 2021

American J Phys Anthropol

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Objectives: In many primates, the greater proportion of climbing and suspensory behaviors in the juvenile repertoire likely necessitates good grasping capacities. Here, we tested whether very young individuals show near-maximal levels of grasping strength, and whether such an early onset of grasping performance could be explained by ontogenetic variability in the morphology of the limbs in baboons.Material and methods: We quantified a performance trait, hand pull strength, at the juvenile and adult stages in a cross-sectional sample of 15 olive baboons (Papio anubis). We also quantified bone dimensions (i.e., lengths, widths, and heights) of the fore-(n = 25) and hind limb (n = 21) elements based on osteological collections covering the whole development of olive baboons.Results: One-year old individuals demonstrated very high pull strengths (i.e., 200% of the adult performance, relative to body mass), that are consistent with relatively wider phalanges and digit joints in juveniles. The mature proportions and shape of the forelimb elements appeared only at full adulthood (i.e., ≥4.5 years), whereas the mature hind limb proportions and shape were observed much earlier during development.Discussion: These changes in limb performance and morphology across ontogeny may be explained with regard to behavioral transitions that olive baboons experience during their development. Our findings highlight the effect of infant clinging to mother, an often-neglected feature when discussing the origins of grasping in primates. The differences in growth patterns, we found between the forelimb and the hind limb further illustrate their different functional roles, having likely evolved under different ecological pressures (manipulation and locomotion, respectively).

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“…While ontogenetic patterns of forearm strength and flexibility are not widely reported either for M. murinus or for primates more generally, what little data exist would seem to suggest interesting developmental trends within this region. Immature mouse lemurs are reported to show relatively high grasping strength when adjusted for body mass (Boulinguez‐Ambroise et al ., ), while data on hand usage during food acquisition suggest that younger adults practice unimanual grasps more frequently than senescent individuals, suggesting some variation in forelimb use associated with aging (Le Brazidec et al ., ). However, as only experimentally derived in vivo measurements of grip strength are reported for this species, the myological changes which drive potential variation in forearm strength and flexibility during development remain unknown.…”

Section: Introductionmentioning

confidence: 99%

The Forearm Musculature of the Gray Mouse Lemur (Microcebus murinus): An Ontogenetic Study

Boettcher

Leonard

Dickinson

et al. 2019

The Anatomical Record

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Although studies have sought to characterize variation in forearm muscular anatomy across the primate order, none have attempted to quantify ontogenetic changes in forearm myology within a single taxon. Herein, we present muscle architecture data for the forearm musculature (flexors and extensors of the wrist and digits) of Microcebus murinus, a small Lemuroid that has been the focus of several developmental studies. A quadratic curvilinear model described ontogenetic changes in muscle mass and fascicle length; however, fascicle lengths reached peak levels at an earlier age and showed a stronger decline during senescence. Conversely, physiological cross-sectional area followed a more linear trend, increasing steadily throughout life. As previous studies into the functional role of the primate forelimb emphasize the importance of long muscle fascicles within arboreal taxa in order to maximize mobility and flexibility, the early attainment of peak fascicle lengths may consequently reflect the importance of agility within this mobile and highly arboreal species. Similarly, observed myological trends in forearm strength are supported by previous in vivo data on grip strength within M. murinus in which senescent individuals showed no decline in forearm force relative to prime age individuals. This trend is interpreted to reflect compensation for the previously reported decline in hind limb grip strength in the hind limb with age, such that older individuals are able to maintain arboreal stability. Interestingly, the ontogenetic trajectory of each architectural variable mirrored previous observations of the masticatory musculature in M. murinus, suggesting that ontogenetic trends are relatively conserved between anatomical regions.

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Ontogeny of food grasping in mouse lemurs: behavior, morphology and performance

Cited by 13 publications

References 37 publications

An interdisciplinary approach to the evolution of grasping and manipulation

An interdisciplinary approach to the evolution of grasping and manipulation

Increased performance in juvenile baboons is consistent with ontogenetic changes in morphology

The Forearm Musculature of the Gray Mouse Lemur (Microcebus murinus): An Ontogenetic Study

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