Abstract
Differences among groups in collective behavior may arise from responses that all group members share, or instead from differences in the distribution of individuals of particular types. We examined whether the collective regulation of foraging behavior in colonies of the desert red harvester ant (Pogonomyrmex barbatus) depends on individual differences among foragers. Foragers lose water while searching for seeds in hot, dry conditions, so colonies regulate foraging activity in response to humidity. In the summer, foraging activity begins in the early morning when humidity is high, and ends at midday when humidity is low. We investigated whether individual foragers within a colony differ in the decision whether to leave the nest on their next foraging trip as humidity decreases, by tracking the foraging trips of marked individuals. We found that individuals did not differ in response to current humidity. No ants were consistently more likely than others to stop foraging when humidity is low. Each day there is a skewed distribution of trip number: only a few individuals make many trips, but most individuals make few trips. We found that from one day to the next, individual foragers do not show any consistent tendency to make a similar number of trips. These results suggest that the differences among colonies in response to humidity, found in previous work, are due to behavioral responses to current humidity that all workers in a colony share, rather than to the distribution within a colony of foragers that differ in response.
Highlights
Evolution shapes how organisms respond to changing conditions (West-Eberhard, 2003; Sultan, 2015)
We found the maximum of these average values, i.e., the value associated with the ant that stopped foraging at the highest average humidity value for each colony
Individual foragers do not tend to make the same number of trips from one day to the (Figure 3); particular ants do not tend to continue foraging even when humidity is low
Summary
Evolution shapes how organisms respond to changing conditions (West-Eberhard, 2003; Sultan, 2015). How do changes in the function of cells during development depend on inherent differences among cells or on Forager Response to Humidity interactions among cells (Haraway, 1976; O’Brien and Bilder, 2013)? Understanding the evolution of collective behavior raises these questions about how variation contributes to plasticity. Natural selection may shape differences in the distribution of particular types within a group, or instead differences in how all group members engage in collective behavior (Loftus et al, 2020). The relations that determine access to resources may depend on persistent differences among individuals, or instead shift as conditions change (Chase et al, 2002; Desjardins et al, 2012)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
