3.8 Article

The royal food of termites shows king and queen specificity

Journal

PNAS NEXUS
Volume 2, Issue 7, Pages -

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/pnasnexus/pgad222

Keywords

social insect; termite; royal food

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Society in eusocial insects is based on reproductive division of labor, with sterile members providing special food to kings and queens through discriminative trophallaxis. The composition of the special food differs between kings and queens. Analysis of food contents and digestive system structures reveals specific compounds and differences in digestive division of labor among castes. These findings shed light on the extraordinary reproduction and longevity of royals in eusocial insects.
Society in eusocial insects is based on the reproductive division of labor, with a small number of reproductive individuals supported by a large number of nonreproductive individuals. Because inclusive fitness of all colony members depends on the survival and fertility of reproductive members, sterile members provide royals with special treatment. Here, we show that termite kings and queens each receive special food of a different composition from workers. Sequential analysis of feeding processes demonstrated that workers exhibit discriminative trophallaxis, indicating their decision-making capacity in allocating food to the kings and queens. Liquid chromatography tandem-mass spectrometry analyses of the stomodeal food and midgut contents revealed king- and queen-specific compounds, including diacylglycerols and short-chain peptides. Desorption electrospray ionization mass spectrometry imaging analyses of C-13-labeled termites identified phosphatidylinositol and acetyl-l-carnitine in the royal food. Comparison of the digestive tract structure showed remarkable differences in the volume ratio of the midgut-to-hindgut among castes, indicating that digestive division of labor underlies reproductive division of labor. Our demonstration of king- and queen-specific foods in termites provides insight into the nutritional system that underpins the extraordinary reproduction and longevity of royals in eusocial insects.

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