Habitat loss and fragmentation affecting mammal and bird communities-The role of interspecific competition and individual space use
Authored by Florian Jeltsch, Carsten M Buchmann, Ran Nathan, Frank M Schurr
Date Published: 2013
DOI: 10.1016/j.ecoinf.2012.11.015
Sponsors:
Israeli National Science Foundation
European Union
Alexander von Humboldt Foundation
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Fragmentation and loss of habitat are major threats to animal
communities and are therefore important to conservation. Due to the
complexity of the interplay of spatial effects and community processes, our mechanistic understanding of how communities respond to such
landscape changes is still poor. Modelling studies have mostly focused
on elucidating the principles of community response to fragmentation and
habitat loss at relatively large spatial and temporal scales relevant to
metacommunity dynamics. Yet, it has been shown that also small scale
processes, like foraging behaviour, space use by individuals and local
resource competition are also important factors. However, most studies
that consider these smaller scales are designed for single species and
are characterized by high model complexity. Hence, they are not easily
applicable to ecological communities of interacting individuals. To fill
this gap, we apply an allometric model of individual home range
formation to investigate the effects of habitat loss and fragmentation
on mammal and bird communities, and, in this context, to investigate the
role of interspecific competition and individual space use. Results show
a similar response of both taxa to habitat loss. Community composition
is shifted towards higher frequency of relatively small animals. The
exponent and the 95\%-quantile of the individual size distribution (ISD, described as a power law distribution) of the emerging communities show
threshold behaviour with decreasing habitat area. Fragmentation per se
has a similar and strong effect on mammals, but not on birds. The ISDs
of bird communities were insensitive to fragmentation at the small
scales considered here. These patterns can be explained by competitive
release taking place in interacting animal communities, with the
exception of bird's buffering response to fragmentation, presumably by
adjusting the size of their home ranges. These results reflect
consequences of higher mobility of birds compared to mammals of the same
size and the importance of considering competitive interaction, particularly for mammal communities, in response to landscape
fragmentation. Our allometric approach enables scaling up from
individual physiology and foraging behaviour to terrestrial communities, and disentangling the role of individual space use and interspecific
competition in controlling the response of mammal and bird communities
to landscape changes. (C) 2013 Elsevier B.V. All rights reserved.
Tags
movement
Model
Population-dynamics
Heterogeneous landscapes
Forest
Responses
Body-size
Relative importance
Home-range size
Female roe deer