Functional anatomy of the hypopharynx and the salivary pump in the feeding apparatus of the assassin bug Rhodnius prolixus (Reduviidae, Heteroptera)

Focussing on the blood-feeding reduviid Rhodnius prolixus, we investigated the structure and function of the hypopharynx in (1) conducting the saliva towards the mouthparts and (2) bringing together the salivary pump and the stylets to ensure the difficult task of supplying the two closed antidromic streams of blood and saliva, while allowing the mouthparts to be moved forth and back during the feeding process. The distal apex of the hypopharynx forms a needle-like structure that is X-shaped in cross section. It arranges the interlocking of the maxillae in a manner resembling the fixed slider of a zip-lock. Further proximal, the hypopharynx extends into the maxillary food channel as a wide tongue. The salivary pump possesses two separate efferent ducts. The dorsal duct originates in the retrograde angle of the cupula (part of the salivarium) and conducts saliva directly into the maxillary salivary channel. The ventral duct originates at the distal opening of the cupula. It extends into a bag, the distal opening of which can be closed by a ventral bolster-like cuticle and opened by muscles. We show for the first time for heteropteran mouthparts that the saliva is not exclusively discharged into the maxillary salivary channel (via the dorsal efferent duct of the salivary pump), but that a large amount of saliva directly flows into the tube of the labium (via the ventral efferent duct of the salivary pump), which encloses the piercing stylets. However, within a short section, saliva may also pass from the ventral salivary duct into the maxillary salivary channel. Similar double salivary efferent ducts are present in the reduviids Triatoma dimidiata, T. infestans, Dipetalogaster maxima, Panstrongylus megistus, in the pyrrhocorid Pyrrhocoris apterus, and in the pentatomid Troilus luridus. It might thus be a more common feature of the Heteroptera.

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