Spatial structure of an individual-based plant–pollinator network

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  • Yoko Luise Dupont
  • Kristian Trøjelsgaard Nielsen, DenmarkMelanie Hagen, DenmarkMarie Vestergaard Henriksen, School of Biological Sciences, Monash Univ., Bld 18, Victoria, Denmark
  • Jens M. Olesen
  • Nanna Maria Elgaard Pedersen
  • W. Daniel Kissling, Inst. for Biodiversity and Ecosystem Dynamics (IBED), Univ. of Amsterdam, Denmark
influence of space on the structure (e.g. modularity) of complex ecological networks remains largely unknown. Here, we
sampled an individual-based plant–pollinator network by following the movements and flower visits of marked bumblebee
individuals within a population of thistle plants for which the identities and spatial locations of stems were mapped in a
50  50 m study plot. The plant–pollinator network was dominated by parasitic male bumblebees and had a significantly
modular structure, with four identified modules being clearly separated in space. This indicated that individual flower
visitors opted for the fine-scale division of resources, even within a local site. However, spatial mapping of network modules
and movements of bumblebee individuals also showed an overlap in the dense center of the plant patch. Model selection
based on Akaike information criterion with traits as predictor variables revealed that thistle stems with high numbers
of flower heads and many close neighbours were particularly important for connecting individuals within the modules.
In contrast, tall plants and those near the patch center were crucial for connecting the different modules to each other.
This demonstrated that individual-based plant–pollinator networks are influenced by both the spatial structure of plant
populations and individual-specific plant traits. Additionally, bumblebee individuals with long observation times were
important for both the connectivity between and within modules. The latter suggests that bumblebee individuals will still
show locally restricted movements within sub-patches of plant populations even if they are observed over a prolonged time
period. Our individual-based and animal-centered approach of sampling ecological networks opens up new avenues for
incorporating foraging behaviour and intra-specific trait variation into analyses of plant–animal interactions across space.
Original languageEnglish
Issue number11
Pages (from-to)1301–1310
Number of pages10
StatePublished - 2014

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