# A Delayed Response in the Area‐Concentrated Search Can Improve Foraging Success

**Authors:** Thotsapol Chaianunporn, Thomas Hovestadt

PMC · DOI: 10.1002/ece3.71173 · Ecology and Evolution · 2025-03-23

## TL;DR

A modified foraging strategy called delayed-response ACS improves resource collection by delaying the switch to intensive searching after finding a resource.

## Contribution

The novel delayed-response ACS model increases foraging efficiency by introducing a delay parameter before switching to intensive search.

## Key findings

- Foragers using dACS with a suitable delay parameter x achieved higher foraging success than standard ACS.
- Optimal foraging success occurred when the delay x was similar to the patch radius r.
- The dACS rule relies only on memory of recent resource encounters, not complex spatial memory.

## Abstract

Area‐concentrated search (ACS) is a simple movement rule implying that an animal searches for resources using a “state‐dependent correlated random walk.” Accordingly, a forager increases its searching intensity by reducing the directionality of movement (“intensive search mode” or ISM) when it detects a resource item, but if it searches unsuccessfully for a while, it returns to a more straight‐line movement to search for new resource locations elsewhere (“extensive search mode” or ESM). We propose a modified ACS, called delayed‐response ACS (dACS), which is more efficient in resource collection than standard ACS. Instead of immediately switching from ESM to ISM when encountering a resource, as is done in standard ACS, an individual foraging in the dACS mode delays this switch by x steps so that it continues moving in a straight line for a while before switching to ISM. Our results showed that an individual with a suitable delay parameter x for the dACS achieved substantially higher foraging success than an individual with standard ACS (x=0). Optimal foraging success occurred when x was approximately similar to the patch radius r. This is because, with dACS, an individual can penetrate deeper into and stay longer within a cluster, ultimately increasing the number of resources collected. Modifying the half‐saturation constant h also affected the success of foraging, but the effects depended on resource density and cluster size. Generally, h modulated the optimal x value only slightly. dACS can be interpreted as a survey movement within a resource cluster before switching from ESM to ISM. The dACS rule does not rely on complex spatial memory but only on memorizing how long ago resources were found or not. It may thus occur in a wide range of taxa, from organisms without a central nervous system to animals with complex brain systems.

We propose a modified area‐concentrated search (ACS), called delayed‐response ACS (dACS), which is more efficient in resource collection than standard ACS. Instead of immediately switching from “extensive search mode” ESM to “intensive search mode” (ISM) when encountering a resource, as is done in standard ACS, an individual foraging in the dACS mode delays this switch by “x” steps so it continues moving in a straight line for a while before switching to ISM. Our results show that an individual with a suitable delay parameter “x” for the dACS achieves substantially higher foraging success than an individual with standard ACS.

## Full-text entities

- **Chemicals:** ESM (-)

## Full text

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## Figures

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## References

55 references — full list in the complete paper: https://tomesphere.com/paper/PMC11930380/full.md

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Source: https://tomesphere.com/paper/PMC11930380