Feeding and stocking up: radio-labelled food reveals exchange patterns in ants

Food sharing is vital for a large number of species, either solitary or social, and is of particular importance within highly integrated societies, such as in colonial organisms and in social insects. Nevertheless, the mechanisms that govern the distribution of food inside a complex organizational s...

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Veröffentlicht in:	PloS one 2009-06, Vol.4 (6), p.e5919-e5919
Hauptverfasser:	Buffin, Aurélie, Denis, Damien, Van Simaeys, Gaetan, Goldman, Serge, Deneubourg, Jean-Louis
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal behavior Animal Communication Animal Feed Animals Ants Ants - physiology Apis mellifera Bees Behavior, Animal Biodiversity and Ecology Blattaria Changing environments Cockroaches Colonies Communication Ecology Ecology/Behavioral Ecology Ecology/Physiological Ecology Environmental Sciences Feeding Behavior Flow (Dynamics) Food Food labeling Food shortages Forage Foraging behavior Formica fusca Formicidae Honey Insects Labeling Lasius niger Medical imaging Medical imaging equipment Models, Biological Models, Statistical Negative feedback Nests Nuclear medicine Pheidole pallidula Pheromones Radionuclide Imaging - methods Scintigraphy Social Behavior Society Spatial distribution Stocking Storage capacity Studies Sucrose Sucrose - metabolism Sugar Technetium - metabolism Workers (insect caste)
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description	Food sharing is vital for a large number of species, either solitary or social, and is of particular importance within highly integrated societies, such as in colonial organisms and in social insects. Nevertheless, the mechanisms that govern the distribution of food inside a complex organizational system remain unknown. Using scintigraphy, a method developed for medical imaging, we were able to describe the dynamics of food-flow inside an ant colony. We monitored the sharing process of a radio-labelled sucrose solution inside a nest of Formica fusca. Our results show that, from the very first load that enters the nest, food present within the colony acts as negative feedback to entering food. After one hour of the experiments, 70% of the final harvest has already entered the nest. The total foraged quantity is almost four times smaller than the expected storage capacity. A finer study of the spatial distribution of food shows that although all ants have been fed rapidly (within 30 minutes), a small area representing on average 8% of the radioactive surface holds more than 25% of the stored food. Even in rather homogeneous nests, we observed a strong concentration of food in few workers. Examining the position of these workers inside the nest, we found heavily loaded ants in the centre of the aggregate. The position of the centre of this high-intensity radioactive surface remained stable for the three consecutive hours of the experiments. We demonstrate that the colony simultaneously managed to rapidly feed all workers (200 ants fed within 30 minutes) and build up food stocks to prevent food shortage, something that occurs rather often in changing environments. Though we expected the colony to forage to its maximum capacity, the flow of food entering the colony is finely tuned to the colony's needs. Indeed the food-flow decreases proportionally to the food that has already been harvested, liberating the work-force for other tasks.
doi_str_mv	10.1371/journal.pone.0005919
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subjects	Animal behavior Animal Communication Animal Feed Animals Ants Ants - physiology Apis mellifera Bees Behavior, Animal Biodiversity and Ecology Blattaria Changing environments Cockroaches Colonies Communication Ecology Ecology/Behavioral Ecology Ecology/Physiological Ecology Environmental Sciences Feeding Behavior Flow (Dynamics) Food Food labeling Food shortages Forage Foraging behavior Formica fusca Formicidae Honey Insects Labeling Lasius niger Medical imaging Medical imaging equipment Models, Biological Models, Statistical Negative feedback Nests Nuclear medicine Pheidole pallidula Pheromones Radionuclide Imaging - methods Scintigraphy Social Behavior Society Spatial distribution Stocking Storage capacity Studies Sucrose Sucrose - metabolism Sugar Technetium - metabolism Workers (insect caste)
title	Feeding and stocking up: radio-labelled food reveals exchange patterns in ants
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