Abstract
Processing information about quantities allows animals to make optimal
decisions during many natural contexts, such as foraging, territorial
defense, offspring care, mate choice, and intra-sexual competition.
Compared to the wealth of information available in vertebrates, much
less is known in invertebrates, even though the processing of quantities
is equally relevant for both taxa. Here, we used two separate
ecologically relevant tasks (brood pile preference and landmark-guided
foraging) to investigate two dimensions of quantitative cognition in
carpenter ants: spontaneous quantitative judgments and trained use of
sequential landmarks. Individual ants spontaneously discriminated
between two piles of dummy cocoons both when the choice involved smaller
(1 vs. 2, 3, 4) and larger numerical contrasts (2 vs. 4, 6, 8). Ants
used both chemical and visual/tactile cues and their performance was
dependent on the numerical ratio. In the second task, ants
preferentially searched near the trained landmark (out of five identical
ones) despite alterations in its position, suggesting that they used
ordinal information about its location when searching for food. In this
experiment, ants showed a limit at four since their performance
drastically decreased when they were trained to the 5th landmark. We
showed that carpenter ants use both relative quantity and relative
position to make efficient decisions. Our study contributes to the scant
body of knowledge available on quantitative cognition in invertebrate
species.
Original language | English |
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Article number | 86 |
Number of pages | 10 |
Journal | Behavioral Ecology and Sociobiology |
Volume | 75 |
DOIs | |
Publication status | Published - 1 May 2021 |
Keywords
- Camponotus
- Spontaneous quantitative discrimination
- Sequential landmarks
- Training
- Social insects