Tiny amphibious insects use tripod gait for seamless transition across land, water, and duckweed

• Published in: bioRxiv
• Main Authors: O'Neil, Johnathan N, Lauren Yung, Kai, Difini, Gaetano, Walker, Holden, Bhamla, M Saad
• Format: Journal Article
• Language: English
• Published: United States 02.04.2024
• Subjects: alternating tripod gait; neuston; amphibious; semiaquatic; water strider; Microvelia; duckweed
• ISSN: 2692-8205; 2692-8205
• DOI: 10.1101/2024.04.02.587757

Insects exhibit remarkable adaptability in their locomotive strategies across diverse environments, a crucial trait for foraging, survival, and predator avoidance. , tiny 2-3 mm insects that adeptly walk on water surfaces, exemplify this adaptability by using the alternating tripod gait in both aquatic and terrestrial terrains. These insects commonly inhabit low-flow ponds and streams cluttered with natural debris like leaves, twigs, and duckweed. Using high-speed imaging and pose-estimation software, we analyze movement across water, sandpaper (simulating land), and varying duckweed densities (10%, 25%, and 50% coverage). Our results reveal maintain consistent joint angles and strides of their upper and hind legs across all duckweed coverages, mirroring those seen on sandpaper. adjust the stride length of their middle legs based on the amount of duckweed present, decreasing with increased duckweed coverage and at 50% duckweed coverage, their middle legs' strides closely mimic their strides on sandpaper. Notably, achieve speeds up to 56 body lengths per second on water, nearly double those observed on sandpaper and duckweed (both rough, frictional surfaces), highlighting their higher speeds on low friction surfaces such as the water's surface. This study highlights 's ecological adaptability, setting the stage for advancements in amphibious robotics that emulate their unique tripod gait for navigating complex terrains.