Robustness in action: Leg loss does not affect mating success in male harvestmen

Escalante, Ignacio; Elias, Damian O.

doi:10.1007/s00265-022-03127-3

Cited by 3 publications

References 72 publications

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Robustness to Leg Loss in Opiliones: A Review and Framework Considerations for Future Research

Escalante,

O'Brien

2024

Integrative and Comparative Biology

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Animals have evolved behavioral and morphological traits that allow them to respond to environmental challenges. However, these traits may have long-term consequences that could impact an animal's performance, fitness, and welfare. Several species in a group of the arachnid order of Opiliones release their legs voluntarily to escape predators. These animals use their legs for locomotion, sensation, and reproduction. Here, we first compile data across species in the suborder Eupnoi, showing that more than half of individuals are found missing legs. Then, we review recent work on the ultimate and proximate implications of leg loss in Opiliones. Field and laboratory experiments showed that leg loss (a) did not affect their survival or mating success and (b) compromised the kinematics and energetics of locomotion, but individuals recovered velocity and acceleration quickly. These findings demonstrate that these animals display robustness, i.e., the ability to withstand and overcome the potential consequences of bodily damage. This may explain why leg loss is so common and prevalent in Opiliones. Additionally, we encourage researchers to consider expanding their hypotheses beyond traditional adaptationist and ableist lenses and incorporate a comprehensive examination of animal welfare when studying animals’ responses to bodily damage. Finally, we highlight avenues for future research in Opiliones, namely assessing how individuals move in three-dimensional environments, the neural plasticity aiding recovery post-leg loss, applications for bio-inspired design, and evidence-based animal welfare measures.

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Robustness to Leg Loss in Opiliones: A Review and Framework Considerations for Future Research

Escalante,

O'Brien

2024

Integrative and Comparative Biology

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Moving in an Uncertain World: Robust and Adaptive Control of Locomotion from Organisms to Machine Intelligence

Mongeau,

Yang,

Escalante

et al. 2024

Integrative and Comparative Biology

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Whether walking, running, slithering, or flying, organisms display a remarkable ability to move through complex and uncertain environments. In particular, animals have evolved to cope with a host of uncertainties—both of internal and external origin—to maintain adequate performance in an ever-changing world. In this review, we present mathematical methods in engineering to highlight emerging principles of robust and adaptive control of organismal locomotion. Specifically, by drawing on the mathematical framework of control theory, we decompose the robust and adaptive hierarchical structure of locomotor control. We show how this decomposition along the robust–adaptive axis provides testable hypotheses to classify behavioral outcomes to perturbations. With a focus on studies in non-human animals, we contextualize recent findings along the robust–adaptive axis by emphasizing two broad classes of behaviors: 1) compensation to appendage loss and 2) image stabilization and fixation. Next, we attempt to map robust and adaptive control of locomotion across some animal groups and existing bio-inspired robots. Finally, we highlight exciting future directions and interdisciplinary collaborations that are needed to unravel principles of robust and adaptive locomotion.

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Outcomes of the mating interactions of Prionostemma sp.5 harvestmen

Escalante,

Elias

2020

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Robustness in action: Leg loss does not affect mating success in male harvestmen

Cited by 3 publications

References 72 publications

Robustness to Leg Loss in Opiliones: A Review and Framework Considerations for Future Research

Robustness to Leg Loss in Opiliones: A Review and Framework Considerations for Future Research

Moving in an Uncertain World: Robust and Adaptive Control of Locomotion from Organisms to Machine Intelligence

Outcomes of the mating interactions of Prionostemma sp.5 harvestmen

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