Recruitment and entropy decrease during trail formation by foraging ants

AbstractMethods of trail formation and organization of group foraging by the ants Formica obscuriventris Mayr, Myrmica americana Weber, and Crematogaster lineolata (Say) were studied under laboratory conditions. Each species was able to organize group travel to a persistent food source. M. americana and C. lineolata achieved this by using trail pheromones, the former species using these pheromones only to establish the trail and the latter using them in all stages of foraging. F. obscuriventris apparently did not use trail pheromones and each individual learned the route to the food independently.

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Active Inferants: An Active Inference Framework for Ant Colony Behavior

Frontiers in Behavioral Neuroscience ◽

10.3389/fnbeh.2021.647732 ◽

2021 ◽

Vol 15 ◽

Author(s):

Daniel Ari Friedman ◽

Alec Tschantz ◽

Maxwell J. D. Ramstead ◽

Karl Friston ◽

Axel Constant

Keyword(s):

Theoretical Biology ◽

Behavioral Model ◽

Ant Colony ◽

Behavioral Modeling ◽

Multiscale Approach ◽

Active Inference ◽

Behavioral Experiments ◽

Case System ◽

Markov Decision ◽

Trail Formation

In this paper, we introduce an active inference model of ant colony foraging behavior, and implement the model in a series of in silico experiments. Active inference is a multiscale approach to behavioral modeling that is being applied across settings in theoretical biology and ethology. The ant colony is a classic case system in the function of distributed systems in terms of stigmergic decision-making and information sharing. Here we specify and simulate a Markov decision process (MDP) model for ant colony foraging. We investigate a well-known paradigm from laboratory ant colony behavioral experiments, the alternating T-maze paradigm, to illustrate the ability of the model to recover basic colony phenomena such as trail formation after food location discovery. We conclude by outlining how the active inference ant colony foraging behavioral model can be extended and situated within a nested multiscale framework and systems approaches to biology more generally.

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Meteorological Conditions at Racetrack Playa, Death Valley National Park: Implications for Rock Production and Transport

Journal of Applied Meteorology and Climatology ◽

10.1175/jamc-d-11-075.1 ◽

2011 ◽

Vol 50 (12) ◽

pp. 2361-2375 ◽

Cited By ~ 6

Author(s):

Ralph D. Lorenz ◽

Brian K. Jackson ◽

Jason W. Barnes ◽

Joseph N. Spitale ◽

Jani Radebaugh ◽

...

Keyword(s):

National Park ◽

Probability Distributions ◽

Meteorological Data ◽

Time Lapse ◽

Meteorological Conditions ◽

Death Valley ◽

Trail Formation ◽

Strong Winds ◽

Death Valley National Park

AbstractThree decades of weather records at meteorological stations near Death Valley National Park are analyzed in an attempt to gauge the frequency of conditions that might form and erase the famous trails of wind-blown rocks in the mud of Racetrack Playa. Trail formation requires the playa to be wet, followed by strong winds and/or freezing conditions. Weather records are compared with a limited set of meteorological data that were acquired in situ at the playa over three winters and that indicate freezing on 50, 29, and 15 nights during the winters of 2007/08–09/10, respectively, as well as with the hydrological condition of the playa as determined by time-lapse cameras that observed flooding over ~1, ~5, and ~40 days, respectively, during those winters. Measurements at the nearby Panamint and Hunter Mountain stations are found to be a useful, if imperfect (~50%), indicator of Racetrack Playa conditions and give some features of Racetrack Playa’s micrometeorological behavior. Wind speed probability distributions suggest that winds that are fast enough to cause unassisted rock motion are rare and therefore that freezing of water on the playa has a role in a significant fraction of movement events.

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