Neuromuscular and hormonal control of post‐eclosion processes in flies

Abstract

Flies (exemplified by Sarcophaga bullata) expand after eclosion from the puparium by processes of “pulsing” (slow rhythmical abdominal contractions) and “pumping” of air (fast rhythmical contractions of the cibarial pump). Pulsing and pumping are inhibited if a newly eclosed fly is kept in an enclosed space (sand, a glass tube, an empty puparium). This inhibition no longer applies if such flies are injected with either hemolymph from flies 10–15 min old or cAMP, or are confined at the age of 10 min. This suggests a hormonal control of pulsing and pumping. Pumping alone, without pulsing, occurs in flies treated with certain paralyzing agents like ether, tetrodotoxin, bee venom, or “FlyNap,” or have the connectives in the neck cut or interrupted by cauterization. Application of FlyNap or neck cauterization leads to excessive pumping which results in bloating. Expansion by bloating is confined to the soft membranes, leaving sclerites and wings largely unexpanded. The function of pulsing is probably that of “plasticizing” and stretching the cuticle to make it respond to increased steady pressure by air‐pumping. Flies ligated at the proboscis show almost regular pulsing and pumping, but without intake of air, and consequently no expansion. Cuticle (sclerites) and wings, however, become plasticized. Some plasticization occurs even in the absence, or reduction, of pulsing (in a neck‐cauterized fly), brought about by a hormonal process. Eclosion from the puparium is also initiated by a hormonal action. Thus, the following processes during fly emergence are controlled by hormones: eclosion proper, pulsing, pumping, plasticization, and tanning. These hormones are separate entities, with the possible exception of the pulsing/pumping hormone(s).