Optimal movement between patches under incomplete information about the spatial distribution of food items
- 作者:Raymond H.G. Klaassen ; Bart A. Nolet ; Jan A. van Gils ; Silke Bauer
- 关键词:Area-restricted search ; Information state ; Foraging scale ; Marginal value theorem ; Optimal foraging strategies ; Prior knowledge ; Spatial heterogeneity
- 刊名:Theoretical Population Biology
- 出版年:2006
- 期刊代码:144_00405809
- 类别:soc
- 出版时间:December 2006
- 卷:70
- 期:4
- 页码:452-463
- 文件大小:440 K
摘要
If the food distribution contains spatial pattern, the food density in a particular patch provides a forager with information about nearby patches. Foragers might use this information to exploit patchily distributed resources profitably. We model the decision on how far to move to the next patch in linear environments with different spatial patterns in the food distribution (clumped, random, and regular) for foragers that differ in their degree of information. An ignorant forager is uninformed and therefore always moves to the nearest patch (be it empty or filled). In contrast, a prescient forager is fully informed and only exploits filled patches, skipping all empty patches. A Bayesian assessor has prior knowledge about the content of patches (i.e. it knows the characteristics of the spatial pattern) and may skip neighbouring patches accordingly by moving to the patch where the highest gain rate is expected. In most clumped and regular distributions there is a benefit of assessment, i.e. Bayesian assessors achieve substantially higher long-term gain rates than ignorant foragers. However, this is not the case in distributions with less strong spatial pattern, despite the fact that there is a large potential benefit from a sophisticated movement rule (i.e. a large penalty of ignorance). Bayesian assessors do also not achieve substantially higher gain rates in environments that are relatively rich or poor in food. These results underline that an incompletely informed forager that is sensitive to spatial pattern should not always respond to existing pattern. Furthermore, we show that an assessing forager can enhance its long-term gain rate in highly clumped and some specific near-regular food distributions, by sampling the environment in slightly larger spatial units.