Data from: Urbanization and plant invasion alter the structure of litter microarthropod communities
Malloch, Bruce et al. (2020), Data from: Urbanization and plant invasion alter the structure of litter microarthropod communities, Dryad, Dataset, https://doi.org/10.5061/dryad.4xgxd256s
Anthropogenic activity underpins the creation of urban ecosystems, often with introduced or invasive species playing a large role in structuring ecological communities. While the effects of urbanization on charismatic taxa such as birds, bees or butterflies have received much attention, the impacts on small and inconspicuous organisms remain poorly understood.
Here, we assess how the community structure of leaf litter-inhabiting microarthropods in city parks varies along an urbanization gradient in Toronto, Canada. At each park, we established paired forest understory plots which were either dominated by native vegetation or dog-strangling vine (Vincetoxicum rossicum), an invasive species that is spreading throughout northeastern North America and abundant in urban areas. We compared microarthropod richness, abundance, and diversity in ecological traits between invaded and non-invaded plots as well as compositional dissimilarities among plots across the urbanization gradient.
We recorded 123 genera and found: i) there was a negative effect of urbanization on microarthropod richness and abundance but only in invaded plots; ii) richness and abundance increased continuously with urbanization in non-invaded plots, but peaked at intermediate urbanization levels in invaded plots; and iii) there was significant turnover with increasing urbanization, with distinct communities represented in highly urbanized areas compared to less urbanized areas, regardless of whether invaded. We also found litter microarthropod richness and abundance increased with soil ammonium and decreased with nitrate. These trends were especially strong for fungivorous microarthropods, however there was no relationship between soil nutrients and urbanization or invasion.
Urbanization and biological invasion drive biodiversity change, and there is a need to disentangle these effects on ecological communities and related ecosystem processes. We show microarthropod communities change with urbanization, with the effects of invasion most prominent in non-urban areas. Here, there is high richness and abundance but low ecological trait diversity, possibly because certain feeding traits are excluded and others overrepresented.
Understanding of urban ecological systems must include knowledge of the microarthropods that interact widely across food webs, form distinct communities in highly urban areas, and drive many of the important ecological functions upon which people in cities depend.
All information about collection and processing are included in the published manuscript that accompany these data.
Everything needed to interpret these data are included in the accompanying published manuscript.
Natural Sciences and Engineering Research Council of Canada, Award: RGPIN-2018-05660
Natural Sciences and Engineering Research Council of Canada, Award: 386151
Japan Society for the Promotion of Science, Award: 201860500
FP7 People: Marie-Curie Actions, Award: 605728