Dynamics of nematode assemblages and soil function in adjacent restored and degraded soils following disturbance
文献类型: 外文期刊
作者: Liu, Manqiang 1 ; Chen, Xiaoyun 1 ; Griffiths, Bryan S. 2 ; Huang, Qianru 3 ; Li, Huixin 1 ; Hu, Feng 1 ;
作者机构: 1.Nanjing Agr Univ, Coll Resources & Environm Sci, Soil Ecol Lab, Nanjing 210095, Jiangsu, Peoples R China
2.TEAGASC, Environm Res Ctr, Johnstown Castle, Wexford, Ireland
3.Jiangxi Inst Red Soil, Jinxian 331717, Peoples R China
关键词: Disturbances;Nematodes;Functional stability;Bioindicators;Restoration;Degradation
期刊名称:EUROPEAN JOURNAL OF SOIL BIOLOGY ( 影响因子:2.846; 五年影响因子:3.618 )
ISSN: 1164-5563
年卷期: 2012 年 49 卷
页码:
收录情况: SCI
摘要: Responses of nematode assemblages and soil function (short-term decomposition) in restored and degraded soil following an experimental disturbance (copper, chloroform, heat or drying) were monitored for 65 days. We tested the hypotheses: restoration enhanced the measured soil parameters; stability to disturbance was higher in degraded soil due to induced tolerance; and whether changes of the nematode assemblage were related to soil function. Even after disturbance, greater nematode abundance (>150 vs >10 per 100 g soil), nematode richness (D' > 1.0 vs >0.4) and function (>1.0 vs >0.05 mg CO2 g(-1) week(-1)) were maintained in restored than in degraded soil, respectively. An increase in nematode enrichment index (from 60 to >75) following all disturbances was attributed to the relatively high abundance of tolerant fungivores. The greater stability of the nematode structure index in degraded soil following heat and drying (120% and 125% respectively of the control), than in restored soil (90% and 30% of control) was due to a higher proportion of tolerant omnivores and carnivores. Thus some higher trophic level nematodes, with high c-p values, were tolerant to disturbance. However, stability of function was greater for restored than degraded soil, with a reduction over time in the degraded soil regardless of disturbance type. The differences in the responses of nematodes and soil function to disturbance suggest that nematodes could provide complementary insights into soil stability. (C) 2011 Elsevier Masson SAS. All rights reserved.
- 相关文献
作者其他论文 更多>>
-
Soil pH and precipitation controls on organic carbon retention from organic amendments across soil orders: A meta-analysis
作者:Wu, Bin;Bai, Tongshuo;Ye, Chenglong;Yu, Wenjuan;Zhu, Tongbin;Li, Daming;Liu, Manqiang;Hu, Shuijin
关键词:Agroecosystem; Microbial transformation; Organic input; Soil carbon stock; Soil order; Soil pH
-
Deciphering the biotic and abiotic drivers of coalescence asymmetry between soil and manure microbiomes
作者:Li, Chunkai;Li, Chunkai;Li, Xianping;Li, Gen;Cao, Rui;Xu, Jingjing;Zhao, Yexin;Yang, Yang;Jiao, Jiaguo;Hu, Feng;Wu, Jun;Li, Huixin;Romdhane, Sana;Philippot, Laurent;Cheng, Yanhong;Li, Peng;Li, Huixin
关键词:Organic fertilization; Bacteria; Fungi; Environmental filtering; Biotic interactions
-
Long-term organic amendments increase the vulnerability of microbial respiration to environmental changes: Evidence from field and laboratory studies
作者:Ye, Chenglong;Li, Na;Gui, Juan;Zhu, Mengyi;Zhou, Yan;Jiao, Kuihu;Li, Daming;Griffiths, Bryan S.;Hu, Shuijin;Liu, Manqiang
关键词:Carbon mineralization; Double-maize cropping; Microbial catabolic capacity; Microbial resistance; Pig manure
-
Responses of invertebrate traits to litter chemistry accelerate decomposition under nitrogen enrichment
作者:Sun, Jianni;Zhang, Chongzhe;Yu, Daoyuan;Yin, Xinyi;Chen, Xiaoyun;Sun, Jianni;Zhang, Chongzhe;Liu, Manqiang;Cheng, Yanhong;Yu, Daoyuan;Chen, Xiaoyun
关键词:Trait-based approach; Global change; Soil biodiversity; Ecosystem process; Soil mesofauna; Collembola traits
-
Application of milk vetch (Astragalus sinicus L.) with reduced chemical fertilizer improves rice yield and nitrogen, phosphorus, and potassium use efficiency in southern China
作者:Fan, Qianyu;Zhang, Lei;Xie, Jiancheng;Hu, Feng;Gao, Songjuan;Xu, Changxu;Liu, Jia;Zhou, Guopeng;Cao, Weidong
关键词:Milk vetch; Rice yield; Nutrient uptake; Nutrient use efficiency; Double-rice cropping system
-
Biochar enhances multifunctionality by increasing the uniformity of energy flow through a soil nematode food web
作者:Liu, Ting;Cheng, Liuzhu;Tian, Shanyi;Chen, Xiaoyun;Liu, Manqiang;Liu, Ting;Chen, Xiaoyun;Liu, Manqiang;Cheng, Yanhong;Whalen, Joann K.
关键词:Pyrolyzed carbon; Mineral fertilizer; Soil biodiversity; Energy flux; Ecosystem multifunctionality; Acid soil
-
Ecological intensification alters the trait-based responses of soil microarthropods to extreme precipitation in agroecosystem
作者:Yu, Daoyuan;Yao, Jin;Chen, Xiaoyun;Sun, Jianni;Wei, Yiming;Hu, Feng;Liu, Manqiang;Yu, Daoyuan;Yao, Jin;Chen, Xiaoyun;Sun, Jianni;Wei, Yiming;Hu, Feng;Liu, Manqiang;Cheng, Yanhong
关键词:Organic amendments; No-tillage; Extreme climate events; Sustainable agriculture; Functional traits; Soil fauna
