Comparative analysis of the jaw apparatus of three marine annelids using scanning electron microscopy: Microstructure and elemental composition.

Polychaeta are highly diversified invertebrates that inhabit marine, brackish or freshwater environments. They have acquired a unique range of adaptative features for securing food. However, the jaw apparatus may reveal not only defence and predation mechanisms, but also its relation to environmental chemistry. The present work compared the structure and chemical profile of the jaws of different estuarine Polychaeta: Nephtys hombergii (Nephtyidae), Hediste diversicolor (Nereididae) and Glycera alba (Glyceridae) using Scanning Electron Microscopy (SEM) and Scanning Electron Microscopy with Energy Dispersive X-Ray (SEM-EDX). Analyses revealed that N. hombergii possesses a muscular jawless proboscis with terminal sensorial papillae for detecting prey, whereas the G. alba proboscis exhibits four delicately sharp jaws with perforations for venom delivery and H. diversicolor bears two blunt denticulated jaws to grasp a wide variety of food items. Melanin and metals like copper provide hardness to the slender jaws of Glycera, while, in the absence of heavier metallic elements, halogens contribute to H. diversicolor jaws robustness. The more specific chemistry of the jaws of glycerids is associated with its more refined venom injection, whereas Hediste is an opportunistic omnivore and Nepthys an agile forager. Altogether, the chemistry of jaws is an adaptive feature for feeding, locomotion and even resilience to complex and often adverse chemical profiles of estuaries.