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dc.contributorPagliara Vasquez, Renato-
dc.creatorPagliara Vasquez, Renato-
dc.creatorGordon, Deborah M.-
dc.creatorLeonard, Naomi Ehrich-
dc.description.abstractAnt colonies regulate activity in response to changing conditions without using centralized control. Harvester ant colonies forage in the desert for seeds, and their regulation of foraging manages a tradeoff between spending and obtaining water. Foragers lose water while outside in the dry air, but the colony obtains water by metabolizing the fats in the seeds they eat. Previous work shows that the rate at which an outgoing forager leaves the nest depends on its recent experience of brief antennal contact with returning foragers that carry a seed. We examine how this process can yield foraging rates that are robust to uncertainty and responsive to temperature and humidity across minutes to hour-long timescales. To explore possible mechanisms, we develop a low-dimensional analytical model with a small number of parameters that captures observed foraging behavior. The model uses excitability dynamics to represent response to interactions inside the nest and a random delay distribution to represent foraging time outside the nest. We show how feedback of outgoing foragers returning to the nest stabilizes the incoming and outgoing foraging rates to a common value determined by the ``volatility’’ of available foragers. The model exhibits a critical volatility above which there is sustained foraging at a constant rate and below which there is cessation of foraging. To explain how the foraging rates of colonies adjust to temperature and humidity, we propose a mechanism that relies on foragers modifying their volatility after they leave the nest and get exposed to the environment. Our study highlights the importance of feedback in the regulation of foraging activity and points to modulation of volatility as a key to explaining differences in foraging activity in response to conditions and across colonies. Our results present opportunities for generalization to other contexts and systems with excitability and feedback across multiple timescales.en_US
dc.description.tableofcontentsThis repository contains the raw and processed foraging rates data collected in 2015, 2016, and 2017. The repository also contains the MATLAB scripts used to analyze the data as well as to simulate the open-loop and closed-loop versions of the model.en_US
dc.publisherPrinceton University. Mechanical and Aerospace Engineering Department.en_US
dc.subjectDynamical Systemsen_US
dc.titleRegulation of Harvester Ant Foraging as a Closed-Loop Excitable Systemen_US
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DATA AND SCRIPTS.zipContains the raw data (.xlsx files), processed data (MATLAB .mat files) and simulation code (MATLAB .m files).9.7 MBExcel and MATLABView/Download

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