Abstract
Non-invasive 3D magnetic resonance imaging techniques were used to investigate metamorphosis of the alimentary tract of Manduca sexta from the larval to the adult stage. The larval midgut contracts in volume immediately following cessation of feeding and then greatly enlarges during the late pharate pupal period. Magnetic resonance imaging revealed that the foregut and hindgut of the pharate pupa undergo ecdysis considerably earlier than the external exoskeleton. Expansion of air sacs in the early pupa and development of flight muscles several days later appear to orient the midgut into its adult position in the abdomen. The crop, an adult auxiliary storage organ, begins development as a dorsal outgrowth of the foregut. This coincides with a reported increase in pupal ecdysteroid titers. An outgrowth of the hindgut, the rectal sac, appears several days later and continues to expand until it nearly fills the dorsal half of the abdominal cavity. This development correlates with a second rise in pupal ecdysteroid titers. In the pharate pupa, the presence of paramagnetic species renders the silk glands hyperintense.
Highlights
The insect alimentary tract is a dynamic and complex structure responsible for processing and sequestering molecules of nutritional value, maintaining and/or excreting metabolites [1], harboring symbionts that aid nutrition [2], secreting defensive compounds [3], preventing microbial infections [4], [5], limiting xenobiotic damage [6], and secreting hormones [7, 8].The alimentary tract of Lepidoptera is a remarkable organ for its relative size in relation to the body during the larval stage but its transformation during metamorphosis to the pupal and adult stages
Gross dissection of the alimentary tract may suffer from physical displacement of tissues and organs induced by invasive manipulation
These distortions can lead to misrepresentation of the actual location or anatomical context within the insect
Summary
The alimentary tract of Lepidoptera is a remarkable organ for its relative size in relation to the body during the larval stage but its transformation during metamorphosis to the pupal and adult stages. The alimentary tract of Lepidopterans undergoes significant restructuring during metamorphosis as the insect transitions from feeding on foliage to nectar [9,10,11]. Gross dissection of the alimentary tract may suffer from physical displacement of tissues and organs induced by invasive manipulation. These distortions can lead to misrepresentation of the actual location or anatomical context within the insect.
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