The degree of change of collembolan community structure related to anthropic soil disturbance
- Published
- Accepted
- Subject Areas
- Agricultural Science, Ecology, Ecosystem Science, Entomology, Soil Science
- Keywords
- collembola community, soil use intensity, anthropic impact, agroecosystem, sustainability
- Copyright
- © 2014 Sandler et al.
- Licence
- This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ PrePrints) and either DOI or URL of the article must be cited.
- Cite this article
- 2014. The degree of change of collembolan community structure related to anthropic soil disturbance. PeerJ PrePrints 2:e721v1 https://doi.org/10.7287/peerj.preprints.721v1
Abstract
Edaphic fauna play a crucial role in soil processes such as organic matter incorporation and cycling, nutrient content, soil structure, and stability. Collembolans in particular, play a very significant role in nutrient cycling and soil structure. The structure and functioning of the soil fauna can in turn be affected by soil use, leading to changes in soil characteristics and its sustainability. Therefore, the responses of soil fauna to different soil management practices, can be used as ecological indicators. Three different soil uses were researched: agricultural fields (AG) with 50 years of continuous farming, pastures entering the agricultural cycle (CG), and naturalized grasslands (NG). For each soil use, three fields were selected. Each sampling consisted of three soil samples per replicate. Collembolans were extracted from the samples and identified to family level. Five families were found: Hypogastruridae, Onychiuridae, Isotomidae, Entomobryidae, and Katiannidae. Soils were also characterized by means of physical and chemical analyses. The index of degree of change of diversity, was calculated. The results show that the biological index of degree of change can detect soil use effects on the collembolan community. Somewhat surprisingly the index showed that the diversity of collembolans is higher in the high anthropic impact site AG, followed by CG and being lower in lower impact sites, NG. The results also show that collembolan families respond differently to soil use. The families Hypogastruridae, Onychiuridae, and Isotomidae presented differences between systems. Therefore collembolan community structure can be a useful tool to assess agricultural practices´ impacts on soil.
Author Comment
The results of this study show how management practices that differ in soil use intensity affect the structure of the collembolan community. We measured soil properties and collembolan community structure in three agricultural conditions. The main result is on the differences in collembolan community structure and the index of the degree of change in their biodiversity. It shows that the higher diversity is found in the agricultural system, followed by the cattle grazing system, with the lower soil diversity found in the natural grassland. This somewhat unexpected result is very interesting, as it shows that, despite an intensive agricultural use, a field can achieve high soil diversity after continuous no-tillage management. It could be convincingly argued that soil biota integrates a response to anthropic disturbances. We believe that these results will also be of interest to other researchers for the interpretation of results of organic matter turnover and nutrient cycling research.
Supplemental Information
Complete dataset for Sandler et al
Raw data including all the physical, chemical and biological variables measured. Includes all the Collembolans collected identified to family in all samples and by agricultural system.