Abstract
Collembola have been proposed for several decades as a good model organisms to survey soil biodiversity; but most of the studies focused on taxonomic endpoints. The main objectives of this study are to compare the effects of the different land uses, including urban and industrial land uses, while using both collembolan functional and taxonomic biodiversity approaches. We collected data on 3,056 samples of Collembola communities across 758 sites in various land uses throughout France. The types of land use considered included all types of human activity from forestry to urban, industrial, traffic, mining and military areas, agricultural grassland, arable land, vineyards and urban vegetable gardens. In order to study functional and taxonomic biodiversity, we used community-weighted means, functional indices, species richness and density. When looking at collembolan functional diversity, urban and industrial soils appear clearly less diversified than when considering the taxonomic diversity. We suspect here a functional homogenization effect commonly reported in the literature for various organisms in urban ecosystems. Our study provides range of values for different taxonomic and functional indices of Collembola communities in a wide land use classification across France.
Highlights
Soil biodiversity, which can represent up to 25% of the terrestrial biodiversity (Decaëns et al, 2006), is usually considered as a key component of ecosystem functioning, providing many ecosystem services
Collembola have been used as bioindicators in a number of national soil monitoring programs across Europe (George et al, 2017) and provide a tool for assessing the effects of land use on soil biodiversity (Vandewalle et al, 2010)
Arable land and forest presented the highest values of functional evenness (FEve 0.71 and 0.70)
Summary
Soil biodiversity, which can represent up to 25% of the terrestrial biodiversity (Decaëns et al, 2006), is usually considered as a key component of ecosystem functioning, providing many ecosystem services. Collembola have been used as bioindicators in a number of national soil monitoring programs across Europe (George et al, 2017) and provide a tool for assessing the effects of land use on soil biodiversity (Vandewalle et al, 2010). They participate in many soil functions including litter decomposition (Cortet et al, 2003), nitrogen and carbon cycles (Filser, 2002), and can impact soil microstructure (Rusek, 1998). Collembola are extremely common and dense in the upper soil
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