MORPH - An individual-based model to predict the effect of environmental change on foraging animal populations
Authored by Richard A Stillman
Date Published: 2008
DOI: 10.1016/j.ecolmodel.2008.04.014
Sponsors:
European Union
Platforms:
MORPH
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
This paper describes an individual-based model, MORPH, that has been
designed to predict the effect of environmental change on foraging
animal populations. The key assumptions of MORPH are that individuals
within populations behave in order to maximise their perceived fitness, but that perceived fitness may not always be positively related to the
actual chances of survival and reproduction. MORPH has been
parameterised for coastal birds on several European sites and predicted
the effect of environmental change, caused by factors such as habitat
loss disturbance from humans and sea-level rise on the survival and body
condition of these species. However, MORPH contains a basic framework to
describe animal physiology and foraging behaviour, and the distribution
and abundance of the resources required by these animals. Therefore, MORPH is not restricted to coastal birds, and is potentially applicable
to a wider range of systems. To be applied to a forager system, MORPH
requires parameters describing (i) the distribution of the food supply
and how food quality and abundance changes through time; (ii) the rate
at which foragers consume food given the abundance of food and
competitors; (iii) the amount of food the forager must consume each day
to survive; (iv) the distribution and seasonal changes in other factors
which influence the foraging behaviour and survival of foragers. The
purpose of this paper is to (i) describe MORPH, (ii) give examples of
its application, (iii) describe the types of systems to which MORPH can
be applied, and (iv) publish its source code and a user guide. (C) 2008
Elsevier B.V. All rights reserved.
Tags
Mortality
habitat
Consequences
Explicit
Shorebirds
Ecological risk-assessment
Spatial depletion model
Behavior-based
model