An in‐depth study of the larval head skeleton and the external feeding structures related with the ingestion of food particles by the eristaline flower flies Eristalis tenax and Eristalinus aeneus.

There is an important lack of knowledge regarding the mechanisms and morphology of the structures involved in the feeding process of the bee‐mimicking eristaline flower fly species (Diptera: Syrphidae). In order to look more deeply into their larval feeding biology, a morphological study of the head skeleton and the external feeding structures of the three larval instars of Eristalis tenax (L.) and Eristalinus aeneus (Scopoli), important pollinators and bioindicators of water quality, was carried out, using scanning electron microscopy and confocal laser scanning microscopy. Additionally, an analysis of the ingested particle size was conducted, using various pollen grains and fungal spores. The main differences, found between the third instars of both species, consisted of the more restrictive mandibular lobes of E. tenax, which prevent the ingestion of bigger particles, and a wider filtering area in the cibarium of E. aeneus, which increases the number of particles that can be retained and ingested. Eristalinus aeneus is able to ingest bigger particles (80–100 μm) than E. tenax (70–80 μm). These results suggest that the structures involved in the feeding process of E. aeneus are less restrictive, thus increasing its survival chances when, under artificial rearing conditions, the same medium is used for both species. This study may contribute to the improvement in artificial rearing for future studies on pollination and decomposition. [ABSTRACT FROM AUTHOR]