Abstract
Long-lived animals, including social insects, often display seasonal shifts in foraging behavior. Foraging is ultimately a nutrient consumption exercise, but the effect of seasonality per se on changes in foraging behavior, particularly as it relates to nutrient regulation, is poorly understood. Here, we show that field-collected fire ant colonies, returned to the laboratory and maintained under identical photoperiod, temperature, and humidity regimes, and presented with experimental foods that had different protein (p) to carbohydrate (c) ratios, practice summer- and fall-specific foraging behaviors with respect to protein-carbohydrate regulation. Summer colonies increased the amount of food collected as the p:c ratio of their food became increasingly imbalanced, but fall colonies collected similar amounts of food regardless of the p:c ratio of their food. Choice experiments revealed that feeding was non-random, and that both fall and summer ants preferred carbohydrate-biased food. However, ants rarely ate all the food they collected, and their cached or discarded food always contained little carbohydrate relative to protein. From a nutrient regulation strategy, ants consumed most of the carbohydrate they collected, but regulated protein consumption to a similar level, regardless of season. We suggest that varied seasonal food collection behaviors and nutrient regulation strategies may be an adaptation that allows long-lived animals to meet current and future nutrient demands when nutrient-rich foods are abundant (e.g. spring and summer), and to conserve energy and be metabolically more efficient when nutritionally balanced foods are less abundant.
Highlights
Reproduction, hibernation, and migration are perhaps the best-known examples of life history events in longlived animals that are entrained to circannual shifts in photoperiod and related environmental factors [1]
Insect societies differ from long-lived solitary animals in many respects, but both share in common the ability to regulate their nutrient intake [20,21,24,25], and both experience regular cyclical shifts in environmental conditions
In this study we show that the nutrient content of available foods can influence food collection behavior in fire ants, but that the nutrient regulation strategies employed by fire ants differ dramatically between the summer and fall
Summary
Reproduction, hibernation (diapause), and migration are perhaps the best-known examples of life history events in longlived animals that are entrained to circannual shifts in photoperiod and related environmental factors (i.e., seasonality per se) [1]. In terms of modifying amounts collected, animals such as squirrels [7] and pika [8] are good examples. They collect summer foods in excess of amounts required for immediate use, and cache this excess for use during winter when food is scarce. Preference switches might indicate active regulation of nutrient intake, despite the relative abundance of available foods [11,12]. In this latter case, an animal should forage for foods having a nutrient content that best matches its immediate multiple nutritional demands. No studies have attempted to experimentally demonstrate how seasonality per se modifies foraging behaviors associated with nutrient regulation
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