Response of soil nematode community structure and diversity to long-term land use in the black soil region in China

Soil nematodes are sensitive to environmental changes and are used widely as indicators of soil conditions. The community structure and diversity of soil nematodes were studied in different long-term land use regimes in the black soil area in Northeast China. The land use regimes were maintained for...

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Bibliographic Details
Published in:Ecological research 2012-07, Vol.27 (4), p.701-714
Main Authors: Pan, Feng-Juan, Xu, Yan-Li, McLaughlin, Neil B., Xue, Allen G., Yu, Qing, Han, Xiao-Zeng, Liu, Wei, Zhan, Li-Li, Zhao, Dan, Li, Chun-Jie
Format: Article
Language:English
Subjects:
Abundance
Agricultural land
Behavioral Sciences
Biomedical and Life Sciences
Bivariate correlation
Boleodorus
Community ecology
Community structure
Crops
Data processing
Decomposition
Ecological index
Ecology
Ecosystem studies
Environmental changes
Eucephalobus
Evolutionary Biology
Filenchus
Food webs
Forestry
Grasses
Growing season
Heterodera
Land use
Life Sciences
Long‐term land use
Maturity
Nematoda
Nematodes
Original Article
Physicochemical properties
Plant diversity
Plant Sciences
Plant species
Relative abundance
Sampling
Soil
Soil nematode
Soil properties
Soils
Species diversity
Species richness
Zoology
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Summary:Soil nematodes are sensitive to environmental changes and are used widely as indicators of soil conditions. The community structure and diversity of soil nematodes were studied in different long-term land use regimes in the black soil area in Northeast China. The land use regimes were maintained for 22 years, and included crop land (CL), grass land (GL) and bare land (BL). Soil samples were taken throughout the growing season, and nematodes were extracted and identified. A total of 39 nematode genera with relative abundance over 0.1 % were identified. Heterodera was the dominant genus in CL; Boleodorus was the dominant genus in GL, and Boleodorus , Eucephalobus and Filenchus were the dominant genera in BL. Land use had a significant effect on abundance of all soil nematode tropic groups and ecological indices. Sampling time had an effect on soil nematode abundance, but only on three of the eight nematode ecological indices MI (maturity index of free-living nematode), CI (channel index) and EI (enrichment index). SR (species richness index) was highest in GL where plant species diversity was also high. The CI was the highest in BL among three land uses, which means the soil food web dominated, with fungal decomposition channels in BL. Soil nematode community structure and diversity was shown to be an effective and informative tool for analyzing ecological aspects of land use in black soil regions. The data are inconclusive as to whether the effect of land use on soil nematode parameters is direct, or indirect via inducing changes in soil physicochemical properties.
ISSN:0912-3814
1440-1703
DOI:10.1007/s11284-012-0944-6