# Agricultural Activities of a Meadow Eliminated Plant Litter from the Periphery of a Farmland in Inner Mongolia, China

**Authors:** Kiyokazu Kawada, Wuyunna Borjigin, Toru Nakamura

PMC · DOI: 10.1371/journal.pone.0135077 · PLoS ONE · 2015-08-04

## TL;DR

Agricultural activities near farmland in Inner Mongolia cause plant litter to disappear from the surrounding meadow due to changes in soil and plant communities.

## Contribution

The study identifies how farming and mowing together lead to litter loss at farmland peripheries in semi-arid regions.

## Key findings

- Litter at the farmland periphery disappeared despite uniform mowing methods.
- Soil particle size distribution near farmland influenced steppe plant species composition.
- Changes in plant community structure due to farming and mowing caused litter loss.

## Abstract

The purpose of our investigation was to clarify the effects of agriculture on the process of loss of litter at the periphery of a farmland. This study revealed the generation process of an ecologically unusual phenomenon that is observed around cropland in semi-arid regions. We hypothesized that the vegetation around a farmland cannot supply plant litter to the ground surface because the ecological structure has been changed by agricultural activities. The study was conducted at Xilingol steppe, Xilingol League, Inner Mongolia Autonomous Region, China. Four study lines were established from the edge of an arable field to the surrounding meadow and parallel to the wind direction during the strong wind season. Key measurement for each line was set at the border between the farmland and steppe. Four study sites were set at intervals along each line. Plant litter, soil particle size distribution, plant species composition, plant volume, and species diversity were investigated. Despite using the same mowing method at the meadows of all study sites, the litter at the only periphery of the farmland completely disappeared. Soil particle size distribution in steppe, which was adjacent to the farmland, was similar to that of the farmland. Plant community structure at the periphery of the farmland was different from that of the far side from the farmland. This implies that soil scattered from the farmland affected the species composition of the steppe. Consequently, the change in plant community structure induced litter loss because of mowing. We concluded that plant litter was lost near the farmland because of the combined effects of farming and mowing. The results support our hypothesis that the vegetation around a farmland cannot supply plant litter because the ecological structure has been changed by agricultural activities.

## Full-text entities

- **Diseases:** Iris dichotoma (MESH:D007499), soil erosion (MESH:D005242), Litter loss (MESH:D016388), fire (MESH:D000092422)
- **Species:** Allium senescens (species) [taxon 70766], Allium anisopodium (species) [taxon 165603], Filifolium sibiricum (species) [taxon 217469], Aster altaicus (species) [taxon 983245], Saposhnikovia divaricata (species) [taxon 203717], Artemisia frigida (species) [taxon 395280], Bromus inermis (awnless brome grass, species) [taxon 15371], Allium tenuissimum (species) [taxon 165669], Koeleria pyramidata (species) [taxon 49772], Potentilla acaulis (species) [taxon 1732545], Adenophora stenanthina (species) [taxon 82278], Thermopsis lanceolata (species) [taxon 114320], Teloxys aristata (species) [taxon 1072205], Thalictrum petaloideum (species) [taxon 1084684], Iris ventricosa (species) [taxon 198830], Homo sapiens (human, species) [taxon 9606], Leymus chinensis (species) [taxon 52714], Oxybasis glauca (oakleaf goosefoot, species) [taxon 244509], Stipa grandis (species) [taxon 408131], Cleistogenes squarrosa (species) [taxon 589504], Potentilla verticillaris (species) [taxon 1778373], Artemisia eriopoda (species) [taxon 1027781]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC4524670/full.md

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC4524670/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/PMC4524670/full.md

---
Source: https://tomesphere.com/paper/PMC4524670