Spatial organisation of habitats in agricultural plots affects per-capita predator effect on conservation biological control: An individual based modelling study
Authored by Thomas Delattre, B Collard, P Tixier, D Carval, C Lavigne
Date Published: 2018
DOI: 10.1016/j.ecolmodel.2018.09.026
Sponsors:
French National Institute for Agricultural Research (INRA)
Platforms:
NetLogo
Model Documentation:
ODD
Flow charts
Model Code URLs:
Model code not found
Abstract
A highly advocated approach to enhance pest control by indigenous
predators is to add or maintain appropriate non-crop plant habitats in
agrosystems. Although the addition of non-crop plant habitats can
enhance the number of predators in crop by increasing their food
resources or shelter, the effect is often insufficient to reduce pest
abundance or damage. A number of explanations were identified in
previous studies; the ability of such habitats to enhance predators, in
particular, is affected by the spatial organisation of the habitats at
the land-scape level. Here, we explore how intra-plot spatial patterns
of non-crop habitats affect the per-capita predator effect on pest
control. We use a spatially explicit and individual-based model to
simulate the foraging movements of an earwig-like predator in a banana
field. Predator movements within a day were based on a simple
non-specific behavioural assumption: movement is a correlated random
walk affected by habitats and edges. Population dynamic processes
occurring at larger time or spatial scales, such as reproduction and
immigration, were not considered. In this model, non-crop habitats added
to plots were considered favourable to predators: movements were slower
and more sinuous in non-crop habitat than in unfavourable habitats. The
intra-plot spatial patterns of the non-crop habitat were built and
characterised using landscape ecology concepts and metrics. We found
that the per-capita predator effect was strongly affected by a spatial
dilution of predators, induced by non-crop habitat addition, but this
negative effect could be partially or fully mitigated by the spatial
organisation of the non-crop habitat. At the banana plant level, a long
edge length between the crop and non-crop habitat can compensate for
this dilution effect by reducing the duration of the periods between
predator visits to the banana plant. At the plot level, the best plots
(i.e., those in which all banana plants were often visited by predators)
were those with non-crop strips in the banana plant rows. Overall, the
results support the idea that the spatial organisation of non-crop
habitats at the plot level, characterised by the metric edge length in
particular, can be managed to minimise the negative impact of the
dilution effect.
Tags
movement
scale
Fragmentation
Populations
Heterogeneous landscapes
Insect
Natural enemies
Cosmopolites-sordidus
Generalist predators
Carabid beetles
Correlated random walk
Spatially explicit modelling
Euborellia caraibea
Banana fields
Edge length
Pest regulation