Abstract
Dung beetles can perform a number of versatile behaviours, including walking and dung ball rolling. While different walking and running gaits of dung beetles have been described in previous literature, little is known about their ball rolling gaits. From behavioural experiments and video recordings of the beetle Scarabaeus (Kheper) lamarcki, we analysed and identified four underlying rules for leg coordination during ball rolling. The rules describe the alternation of the front legs and protraction waves of the middle and hind legs. We found that while rolling a ball backwards, the front legs are decoupled or loosely coupled from the other legs, resulting in a non-standard gait, in contrast to previously described tripod and gallop walking gaits in dung beetles. This provides insight into the principles of leg coordination in dung beetle ball rolling behaviour and its underlying rules. The proposed rules can be used as a basis for further investigation into ball rolling behaviours on more complex terrain (e.g., uneven terrain and slopes). Additionally, the rules can also be used to guide the development of control mechanisms for bio-inspired ball rolling robots.
Highlights
Insect locomotion is a complex process which needs to coordinate many motor units in real time while simultaneously interacting with the environment
We studied the ball rolling behaviour of the dung beetle
To roll a ball backwards, the leg trajectories of the dung beetle show that the front legs move as it walks backwards on the ground while the middle and hind legs move as it walks forwards; thereby pushing the dung ball
Summary
Insect locomotion is a complex process which needs to coordinate many motor units in real time while simultaneously interacting with the environment. A description of the leg coordination rules can provide a guideline to 1) understand how dung beetles simultaneously and dynamically interact with different substrates (e.g. ground and ball), and 2) develop bio-inspired robot control technology for achieving multiple functions (walking and transporting or rolling an object), as well as solving complex motor control problems in many degrees of freedom systems. From this perspective, this work presents a detailed investigation into the ball rolling behaviour of Scarabaeus (Kheper) lamarcki. We discuss gait in relation to locomotion and object manipulation (i.e., ball pushing)
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