Add to ORKGTardigrades must negotiate heterogeneous, fluctuating environments and accordingly utilize locomotive strategies capable of dealing with variable terrain. We analyze the kinematics and interleg coordination of freely walking tardigrades (species: Hypsibius exemplaris). We find that tardigrade walking replicates several key features of walking in insects despite disparities in size, skeleton, and habitat. To test the effect of environmental changes on tardigrade locomotor control circuits we measure kinematics and interleg coordination during walking on two substrates of different stiffnesses. We find that the phase offset between contralateral leg pairs is flexible, while ipsilateral coordination is preserved across environmental conditions...
In multisegmented locomotion, coordination of all appendages is crucial for the generation of a prop...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Cruse H, Dürr V, Schmitz J. Insect walking is based on a decentralized architecture revealing a simp...
Terrestrial animals must often negotiate heterogeneous, varying environments. Accordingly, their loc...
The analysis of inter-leg coordination in insect walking is generally a study of six-legged locomoti...
Günzel Y, Dallmann CJ, Schmitz J, Dürr V. Adaptive control of locomotion: How do stick insects maste...
Dürr V, Theunissen L, Dallmann C, Hoinville T, Schmitz J. Motor flexibility in insects: Adaptive coo...
Navigation of complex environments is crucial for animals to find food, mates and/or shelter and to ...
Dallmann C, Hoinville T, Dürr V, Schmitz J. A load-based mechanism for inter-leg coordination in ins...
Amphibious animals adapt their body coordination to compensate for changing substrate properties as ...
Abstract. This paper outlines aspects of locomotor control in insects that may serve as the basis fo...
Terrestrial locomotion requires animals to coordinate their limb movements to efficiently traverse t...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Animals’ ability to demonstrate both stereotyped and adaptive locomotor behavior is largely dependen...
Adaptive, context-dependent control of locomotion requires modulation of centrally generated rhythmi...
In multisegmented locomotion, coordination of all appendages is crucial for the generation of a prop...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Cruse H, Dürr V, Schmitz J. Insect walking is based on a decentralized architecture revealing a simp...
Terrestrial animals must often negotiate heterogeneous, varying environments. Accordingly, their loc...
The analysis of inter-leg coordination in insect walking is generally a study of six-legged locomoti...
Günzel Y, Dallmann CJ, Schmitz J, Dürr V. Adaptive control of locomotion: How do stick insects maste...
Dürr V, Theunissen L, Dallmann C, Hoinville T, Schmitz J. Motor flexibility in insects: Adaptive coo...
Navigation of complex environments is crucial for animals to find food, mates and/or shelter and to ...
Dallmann C, Hoinville T, Dürr V, Schmitz J. A load-based mechanism for inter-leg coordination in ins...
Amphibious animals adapt their body coordination to compensate for changing substrate properties as ...
Abstract. This paper outlines aspects of locomotor control in insects that may serve as the basis fo...
Terrestrial locomotion requires animals to coordinate their limb movements to efficiently traverse t...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Animals’ ability to demonstrate both stereotyped and adaptive locomotor behavior is largely dependen...
Adaptive, context-dependent control of locomotion requires modulation of centrally generated rhythmi...
In multisegmented locomotion, coordination of all appendages is crucial for the generation of a prop...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Cruse H, Dürr V, Schmitz J. Insect walking is based on a decentralized architecture revealing a simp...