Investigation of the spatial heterogeneity of soil microbial biomass carbon and nitrogen under long-term fertilizations in fluvo-aquic soil
文献类型: 外文期刊
第一作者: Ye, Hongling
作者: Ye, Hongling;Lu, Changai;Ye, Hongling;Lin, Qimei
作者机构:
期刊名称:PLOS ONE ( 影响因子:3.24; 五年影响因子:3.788 )
ISSN: 1932-6203
年卷期: 2019 年 14 卷 4 期
页码:
收录情况: SCI
摘要: Soils are heterogeneous and microbial spatial distribution can clearly indicate the spatial characteristics of the soil carbon and nitrogen cycle. However, it is not clear how long-term fertilization affects the spatial distribution of microbial biomass in fluvo-aquic soil. We collected fluvo-aquic soil samples (topsoil 0-7.5 cm and sub-topsoil 7.5-20 cm) using a spatially-explicit design within three 40.5 m(2) plots in each of four fertilization treatments. Fertilization treatments were: cropping without fertilizer inputs (CK); chemical nitrogen, phosphorus, and potassium fertilizer (NPK); chemical fertilizer with straw return (NPKS); and chemical fertilizer with animal manure (NPKM). Variables included soil microbial biomass carbon (MBC) and nitrogen (MBN), and MBC/MBN. For both soil layers, we hypothesized that: microbial biomass was lowest in CK but with the largest spatial heterogeneity; and microbial biomass was highest in NPKM and NPKS but with the lowest spatial heterogeneity. Results showed that: (1) Fertilization significantly increased MBC and MBN more in topsoil than subtopsoil but had no MBC/MBN changes. (2) The coefficient of variation (CV) and Cochran's C showed that variation was largest in CK in topsoil and NPK in sub-topsoil and that variation of topsoil was generally lower than in sub-topsoil. The sample size of the three variables was largest in CK in topsoil but had little variation among the other treatments. (3) The trendsurface model showed that within-plot heterogeneity varied substantially with fertilization (NPKM = NPK > NPKS > CK), but Moran's I and the interpolation map showed that spatial variability with fertilization followed the order NPK > NPKS > CK = NPKM at a fine scale in topsoil. In sub-topsoil, the trend-surface model showed that within-plot heterogeneity followed the order NPKM = CK > NPK > NPKS and that the fine-scale pattern was NPKM>NPK = NPKS>CK. MBC had the highest spatial heterogeneity among the three variables in both soil layers. Our results indicate that the application of organic fertilizer (straw or manure) reduced the variation of MBC and MBN but increased the spatial variability of MBC and MBN. The spatial variation of the three variables was MBC > MBN > MBC/MBN regardless of whether variation was considered at the plot-scale or the fine-scale in both layers.
分类号:
- 相关文献
作者其他论文 更多>>
-
Protective effect of Stropharia rugosoannulata polysaccharide and its derivatives on dextran sodium sulfate-induced colitis
作者:Ye, Hongling;He, Yaling;Jin, Mingzhi;Ye, Ziyang;Huang, Qianli;Ye, Ming;Chen, Hui
关键词:Anti-inflammatory activity; derivatives; dextran sulfate sodium (DSS)-induced colitis; Stropharia rugosoannulata polysaccharide
-
Infrared spectroscopy for soil NPK estimation: Advances, challenges, and future directions in predictive modelling
作者:Huai, Shengchang;Zhang, Qingyue;Jin, Yuwen;Lu, Changai;Huai, Shengchang;Meersmans, Jeroen;Colinet, Gilles;Yu, Weijia;Wang, Shichao
关键词:Soil nutrients; Infrared spectroscopy; NPK estimation; Machine learning; Predictive models; Interference factors
-
Partial substitution of rice straw with biochar alters soil microbial biomass phosphorus and turnover by regulating carbon:phosphorus stoichiometry
作者:Ding, Shuai;Lin, Qimei;Liu, Zhongzhen;Ding, Shuai;Chen, Qing;Yin, Junhui
关键词:Rice straw; Biochar substitution; Soil microbial biomass phosphorus turnover; Oxisol; Microbial carbon: phosphorus ratio
-
Grazing accelerates soil carbon loss by enhancing the degradability of soil water-extractable organic matter and microbial turnover in fragile grasslands
作者:Chen, Hao;Lin, Liwen;Chen, Hao;Wang, Fei;Ji, Mukan;Kong, Weidong;Shi, Quan;Wu, Jianshuang;Wu, Jianshuang;Zhang, Xianzhou;Wang, Fei;Lin, Qimei;Zhu, Yong-Guan;Liang, Chao;Kong, Weidong;Kong, Weidong
关键词:Grazing; Soil water-extractable organic matter; Degradability; Organic matter decomposition; Carbon loss; Grassland soil
-
Substrate stoichiometry and microbial metabolic preference drive the divergent accumulation of plant and microbial necromass carbon in cropland soils: evidence from a short-term experiment
作者:Wu, Hongliang;Wang, Luming;Liu, Xiuping;Wang, Wenyan;Dong, Wenxu;Lu, Changai
关键词:agricultural residues; microbial stoichiometry metabolism; lignin phenols; microbial necromass carbon; carbon and nutrient metabolism
-
Hydrochar as a Potential Soil Conditioner for Mitigating H+ Production in the Nitrogen Cycle: A Comparative Study
作者:Yu, Weijia;Yu, Weijia;Zhang, Qingyue;Huai, Shengchang;Jin, Yuwen;Lu, Changai
关键词:hydrochar; net proton production; soil nitrification; nitrate leaching; ammonia-oxidizing microorganisms; dissolved organic carbon
-
Phosphorus Functional Genes Control Rice Yield via Microbial Biomass Phosphorus and Plant Phosphorus Uptake in a Rice-Oilseed Rape Rotation System Compared with a Rice-Wheat Rotation System
作者:Zhang, Qingyue;Yu, Weijia;Huai, Shengchang;Jin, Yuwen;Li, Guihua;Lu, Changai;Yu, Weijia;Li, Min;Cheng, Wenlong;Wu, Ji
关键词:rice-oilseed rape rotation; rice-wheat rotation; microbial biomass phosphorus; P functional genes; soil phosphorus bioavailability; rice yield
