Publication details.

Paper

Year:2018
Author(s):C. Monk, M. Barbier, P. Romanczuk, J. Watson, J. Alós, S. Nakayama, D. Rubenstein, S. Levin, R. Arlinghaus
Title:How ecology shapes exploitation: a framework to predict the behavioural response of human and animal foragers along exploration–exploitation trade-offs
Journal:ECOLOGY LETTERS
ISSN:1461-023X
Volume:21
Issue No.:6
Pages:779-793
D.O.I.:10.1111/ele.12949
Web:https://dx.doi.org/10.1111/ele.12949
Abstract:© 2018 John Wiley & Sons Ltd/CNRS Understanding how humans and other animals behave in response to changes in their environments is vital for predicting population dynamics and the trajectory of coupled social-ecological systems. Here, we present a novel framework for identifying emergent social behaviours in foragers (including humans engaged in fishing or hunting) in predator–prey contexts based on the exploration difficulty and exploitation potential of a renewable natural resource. A qualitative framework is introduced that predicts when foragers should behave territorially, search collectively, act independently or switch among these states. To validate it, we derived quantitative predictions from two models of different structure: a generic mathematical model, and a lattice-based evolutionary model emphasising exploitation and exclusion costs. These models independently identified that the exploration difficulty and exploitation potential of the natural resource controls the social behaviour of resource exploiters. Our theoretical predictions were finally compared to a diverse set of empirical cases focusing on fisheries and aquatic organisms across a range of taxa, substantiating the framework's predictions. Understanding social behaviour for given social-ecological characteristics has important implications, particularly for the design of governance structures and regulations to move exploited systems, such as fisheries, towards sustainability. Our framework provides concrete steps in this direction.

Related staff

  • Josep Alós Crespí
  • Related departments

  • Marine Ecology
  • Related research groups

  • Marine Ecosystems Dynamics