Cattle grazing mitigates the negative impacts of nitrogen addition on soil nematode communities
Autor: | Duofeng Pan, Jushan Liu, Quanhui Ma, Ying Chen, Xiang Zhang, Yao Zhang, Uffe N. Nielsen, Xuewen Huang, Xiuquan Yue, Deli Wang |
---|---|
Rok vydání: | 2021 |
Předmět: |
0106 biological sciences
animal diseases Soil biology General Decision Sciences 010501 environmental sciences Biology 010603 evolutionary biology 01 natural sciences Nutrient parasitic diseases Grazing Soil food web Grassland management Sheep grazing Ecosystem Mixed grazing QH540-549.5 Ecology Evolution Behavior and Systematics 0105 earth and related environmental sciences Cattle grazing Biomass (ecology) Herbivore Ecology Soil nematodes Agronomy Nitrogen enrichment Species richness |
Zdroj: | Ecological Indicators, Vol 129, Iss, Pp 107876-(2021) |
ISSN: | 1470-160X |
Popis: | Livestock grazing and atmospheric nitrogen (N) deposition have been reported as important factors affecting soil communities. However, how different large herbivore grazing and N addition may interact to affect soil biota in grassland ecosystems is unclear. Nematodes are the most abundant metazoan in soil ecosystems, play critical roles in regulating carbon and nutrient dynamics, and are valuable bioindicators. We examined the independent and interactive effects of grazing regimes (no grazing; sheep grazing; cattle grazing; mixed grazing of sheep and cattle) and N addition (ambient N; N addition) on soil nematodes in a meadow steppe. We found that grazing and N addition interacted to influence total nematode abundance, trophic group abundance, generic richness, diversity and several nematode-based indices (maturity index, channel ratio, enrichment index). In cattle grazing treatment, N addition significantly increased total nematode abundance, and the abundance of bacterial feeders, plant feeders, and omnivore-predators, and generic richness. By contrast, in the sheep and mixed grazing treatments, N addition had a negative effect on the same variables. Moreover, N addition reduced nematode maturity, enrichment and structure indices, and enhanced nematode channel ratio, in most grazing treatments, except mixed grazing where N addition had no effect on these variables. Structural equation modeling (SEM) revealed that N addition indirectly reduced nematode abundance and richness through increased soil NO3−-N content, whereas the effects of grazing were associated with increased relative biomass of grasses. Our results suggested that the response of soil nematodes to N addition strongly depended on herbivore assemblages. Nitrogen addition enhanced soil nematode diversity and maintained a relatively complex and mature soil food web in the presence of cattle rather than sheep grazing. Furthermore, our study highlighted that under N deposition, cattle grazing could benefit the soil nematode community. |
Databáze: | OpenAIRE |
Externí odkaz: |