Abstract
Scale sensilla are small tactile mechanosensory organs located on the head scales of many squamate reptiles (lizards and snakes). In sea snakes and sea kraits (Elapidae: Hydrophiinae), these scale organs are presumptive scale sensilla that purportedly function as both tactile mechanoreceptors and potentially as hydrodynamic receptors capable of sensing the displacement of water. We combined scanning electron microscopy, silicone casting of the skin and quadrate sampling with a phylogenetic analysis to assess morphological variation in sensilla on the postocular head scale(s) across four terrestrial, 13 fully aquatic and two semi-aquatic species of elapids. Substantial variation exists in the overall coverage of sensilla (0.8–6.5%) among the species sampled and is broadly overlapping in aquatic and terrestrial lineages. However, two observations suggest a divergent, possibly hydrodynamic sensory role of sensilla in sea snake and sea krait species. First, scale sensilla are more protruding (dome-shaped) in aquatic species than in their terrestrial counterparts. Second, exceptionally high overall coverage of sensilla is found only in the fully aquatic sea snakes, and this attribute appears to have evolved multiple times within this group. Our quantification of coverage as a proxy for relative ‘sensitivity’ represents the first analysis of the evolution of sensilla in the transition from terrestrial to marine habitats. However, evidence from physiological and behavioural studies is needed to confirm the functional role of scale sensilla in sea snakes and sea kraits.
Highlights
Evolutionary transitions from terrestrial to aquatic habitats provide important insights into how organismal traits respond to major adaptive shifts
High-depth-of-field photographic images of elapid heads showed scale sensilla that mostly resembled round bumps protruding from the epidermis
The sensillum ultrastructure imaged under scanning electron microscopy (SEM) showed that the terrestrial species Pseudonaja textilis had numerous flat, elliptical scale sensilla, whereas the aquaticassociating species had rounder, dome-shaped scale sensilla that protruded prominently from the surrounding epidermis
Summary
Evolutionary transitions from terrestrial to aquatic habitats provide important insights into how organismal traits respond to major adaptive shifts. An important exception are the front-fanged hydrophiine snakes (Elapidae), which comprise approximately 100 species of Australo-Melanesian terrestrial snakes, 60 species of fully aquatic viviparous sea snakes and eight species of semi-aquatic oviparous sea kraits (Laticauda). The whole group is estimated to share a common ancestor dated between 14 and 26 million years ago (Ma); the semi-aquatic sea kraits form the sister lineage to the terrestrial plus viviparous marine species, and the viviparous marine clade diverged independently from within the terrestrial group only 6–8 Ma [1]. Hydrophiines are excellent candidates for studying the evolution of organismal traits resulting from transitions between land and sea.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
