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How Sulphur Deposition Affects Soil Nematode Community Structure

24-09-2021 View: 129

Sulphur (S) is an essential nutrient for plants, and it plays an important role in nutrient cycles in grassland ecosystems. However, excessive S fertiliser use and atmospheric S deposition may lead to soil acidification in terrestrial ecosystems, which in turn causes soil nutrient imbalance and changes the structure and function of soil biotic communities.  

In the past few decades, a lot of studies have been conducted to examine the impacts of nitrogen deposition on grassland ecosystems and soil acidification, but how sulphur deposition will affect grassland ecosystem biota is poorly understood. 

In September 2019, Prof. Jiang Yong and his colleagues, who are researchers from the Soil Chemistry Group of the Institute of Applied Ecology (IAE), Chinese Academy of Sciences (CAS), conducted a sample survey on the experimental plots of a sulphur addition experiment, which was established in May 2017 at the Erguna Forest-Steppe Ecotone Research Station of the CAS.

The researchers measured chemical and biological properties of the soil samples and found that S addition had a significant impact on richness and diversity of soil nematodes, but not on total abundance of soil nematodes and the relative abundance of Cervidellus and Aphelenchus (the dominant nematode species).  

In response to S addition, the relative abundance of predator-omnivorous nematodes increased significantly, while the relative abundance of bacterivores decreased. In addition, the Food Web Structural Index increased significantly with the increase of S addition rate. 

The study shows that S deposition affects the soil nematode community structure mainly by affecting the omnivores-predators and thus the top-down pressure.  

The study results indicate that S deposition can change the composition of soil nematode community, affect the stability of nematode community structure, and intensify the disturbance to the energy flows between underground organisms at different trophic levels.  

The results were published in Science of the Total Environment, entitled "Sulfur deposition changed the community structure of soil nematodes by affecting omnivores-predators."  

The study was funded by the National Natural Science Foundation of China

http://english.iae.cas.cn/Research2017/RP2017/202103/t20210330_266693.html