Movement upscaled - the importance of individual foraging movement for community response to habitat loss
Authored by Florian Jeltsch, Carsten M Buchmann, Ran Nathan, Frank M Schurr
Date Published: 2012
DOI: 10.1111/j.1600-0587.2011.06924.x
Sponsors:
Israeli National Science Foundation
European Union
US-Israel Binational Science Foundation
Platforms:
No platforms listed
Model Documentation:
ODD
Mathematical description
Model Code URLs:
Model code not found
Abstract
Habitat loss poses a severe threat to biodiversity. While many studies
yield valuable information on how specific species cope with such
environmental modification, the mechanistic understanding of how
interacting species or whole communities are affected by habitat loss is
still poor. Individual movement plays a crucial role for the space use
characteristics of species, since it determines how individuals perceive
and use their heterogeneous environment. At the community level, it is
therefore essential to include individual movement and how it is
influenced by resource sharing into the investigation of consequences of
habitat loss. To elucidate the effects of foraging movement on
communities in face of habitat loss, we here apply a recently published
spatially-explicit and individual-based model of home range formation.
This approach allows predicting the individual size distribution (ISD)
of mammal communities in simulation landscapes that vary in the amount
of suitable habitat. We apply three fundamentally different foraging
movement approaches (central place forager (CPF), patrolling forager
(PF) and body mass dependent nomadic forager (BNF)). Results show that
the efficiency of the different foraging strategies depends on body
mass, which again affects community structure in face of habitat loss.
CPF is only efficient for small animals, and therefore yields steep ISD
exponents on which habitat loss has little effect (due to a movement
limitation of body mass). PF and particularly BNF are more efficient for
larger animals, resulting in less steep ISDs with higher mass maxima, both showing a threshold behaviour with regard to loss of suitable
habitat. These findings represent a new way of explaining observed
extinction thresholds, and therefore indicate the importance of
individual space use characterized by physiology and behaviour, i.e.
foraging movement, for communities and their response to habitat loss.
Findings also indicate the necessity to incorporate the crucial role of
movement into future conservation efforts of terrestrial communities.
Tags
Animal movement
ecology
Model
mammals
Fragmentation
Landscape structure
Body-size
Species responses
Space use
Home-range behavior