Dynamics of physically-separated soil organic carbon pools assessed from delta C-13 changes under 25 years of cropping systems

文献类型: 外文期刊

第一作者: Dou, Xiaolin

作者: Dou, Xiaolin;Dou, Xiaolin;He, Ping;Zhou, Wei;Wang, Ligang;Cheng, Xiaoli;Zhu, Ping

作者机构:

关键词: Continuous maize cropping;Maize-soybean rotation;delta C-13;Soil aggregates;Density fractionation;Soil C turnover

期刊名称:SOIL & TILLAGE RESEARCH ( 影响因子:5.374; 五年影响因子:6.368 )

ISSN: 0167-1987

年卷期: 2017 年 174 卷

页码:

收录情况: SCI

摘要: Quantification of the dynamics of soil organic carbon (SOC) pools under the influence of different cropping systems is essential for predicting carbon (C) sequestration. We combined soil fractionation with C isotope analyses to investigate the SOC dynamics of the various soil fractions in a black soil of Northeast China after 25 years of tillage. Soil samples from the initial condition (CK) and 2 cropping treatments including continuous maize cropping (MM), maize-soybean rotation (MS) were separated into 4 aggregate sizes (< 53 mu m, 250-53 mu m, 2000-250 mu m, and > 2000 pm) and 3 density fractions: free light fraction (LF), intra-aggregate particulate organic matter (iPOM), and mineral-associated organic matter (mSOM). The 25 years of cropping with manure application significantly increased the SOC storage, mainly by enhancing the soil C of the macroaggregates (2000-250 pm), with most of the C stored in the iPOM (62.01-90.32%). The MS system was more beneficial for the SOC accumulation in macroaggregates (> 250 pm) than the MM system because of enhanced SOC in heavier fractions (iPOM and mSOM); this was probably induced by the differentiation of the below ground humification rate between soybean and maize roots, while the MM system may be a more effective measure for future soil C sequestration because most of the stable C is stored in the small size fraction (< 53 mu m). The delta C-13 values indicated that, among aggregate sizes, the fastest soil C turnover occurred in microaggregates (250-53 mu m). Moreover, C in the MS soils had a faster turnover rate than in the MM soils.

分类号:

  • 相关文献

[1]Shifts in soil organic carbon and nitrogen dynamics for afforestation in central China. Dou, Xiaolin,Shu, Xiao,Zhang, Quanfa,Cheng, Xiaoli,Dou, Xiaolin,Xu, Xia.

[2]Effects of long-term fertilization and cropping regimes on total nitrogen and organic nitrogen forms in a Mollisol of Northeast China. Li, H.,Gao, Q.,Gao, H. J.,Zhu, P.,Wang, L. C..

[3]Long-term fertilization effects on soil organic carbon stocks in the irrigated desert soil of NW China. Chai, Yanjun,Ma, Shiming,Zeng, Xibai,Li, Lianfang,Duan, Ran,Su, Shiming,Chai, Yanjun,E, Shengzhe,Che, Zongxian.

[4]Transition from intensive tillage to no-till enhances carbon sequestration in microaggregates of surface soil in the North China Plain. Du, Zhangliu,Zhang, Qingzhong,Ren, Tusheng,Ren, Tusheng,Hu, Chunsheng.

[5]Development of Soil Crusts Under Simulated Rainfall and Crust Formation on a Loess Soil as Influenced by Polyacrylamide. Li Shun-Jiang,Hu Xia,Liu Lian-You,Lu Yan-Li,Guo Jin-Rui,Hu Xia,Liu Lian-You,Lu Yan-Li,Guo Jin-Rui,Cai Qiang-Guo. 2012

[6]Effects of Integrated Soil-Crop System Management on Soil Organic Carbon Characteristics in a Primosol in Northeast China. Zhang Jinjing,Cao Zhiyuan,Feng Guozhong,Li Mengyao,Li Cuilan,Gao Qiang,Wang Lichun. 2017

[7]Spatial distribution of rhizodeposit carbon of maize (Zea mays L.) in soil aggregates assessed by multiple pulse C-13 labeling in the field. Qiao, Yunfa,Miao, Shujie,Li, Na,Han, Xiaozeng,Zhang, Bin,Zhang, Bin.

[8]Change in the abundance and community composition of ammonia-oxidizing bacteria and archaea at soil aggregate level as native pasture converted to cropland in a semiarid alpine steppe of central Asia. Chen, Zhu,Guo, Yanbin,Wu, Wenliang,Meng, Fanqiao,Du, Zhangliu. 2016

[9]Pore-scale simulation of gas diffusion in unsaturated soil aggregates: Accuracy of the dusty-gas model and the impact of saturation. Li, Zhongyang,Zhang, Xiaoxian,Liu, Yuan,Zhang, Xiaoxian.

[10]Organic carbon fractions affected by long-term fertilization in a subtropical paddy soil. Huang, Shan,Rui, Wenyi,Peng, Xianxian,Huang, Qianru,Zhang, Weijian,Zhang, Weijian.

[11]Crop species affect soil organic carbon turnover in soil profile and among aggregate sizes in a Mollisol as estimated from natural C-13 abundance. Qiao, Yunfa,Miao, Shujie,Qiao, Yunfa,Miao, Shujie,Li, Na,Xu, Yanli,Han, Xiaozeng,Zhang, Bin,Zhang, Bin.

[12]Long-Term Manure Amendments Enhance Soil Aggregation and Carbon Saturation of Stable Pools in North China Plain. Du Zhang-liu,Zhang Qing-zhong,Wu Wen-liang,Guo Yan-bin,Meng Fan-qiao. 2014

[13]Soil Aggregation and Microbial Responses to Straw Pulping Byproducts. Xiao, C.,Fauci, A.,Bezdicek, D. F.,Pan, W. L.,Xiao, C.,McKean, W. T..

[14]Variation of soil aggregation and intra-aggregate carbon by long-term fertilization with aggregate formation in a grey desert soil. Jiang, Maibo,Wang, Xihe,Liu, Hua,Jiang, Maibo,Liusui, Yunhao,Han, Chao,Jiang, Maibo,Zhao, Chengyi.

[15]Soil aggregation and organic carbon fractions affected by long-term fertilization in a red soil of subtropical China. Huang, Shan,Peng, Xianxian,Huang, Qianru,Zhang, Weijian,Zhang, Weijian.

[16]Effect of water stress on dry mass accumulation and allocation in sweet potato based on stable isotope analysis. Zhang, Hui,Zhu, Lvdan,Ning, Yunwang,Zhang, Yongchun,Zhang, Hui,Zhang, Congzhi. 2015

[17]Identification and stable isotope analyses of flying fish scales from ornithogenic sediments at three islands in the South China Sea. Wu, Libin,Liu, Xiaodong,Wang, Xueying,Li, Yeling,Wu, Libin,Liu, Xiaodong,Wang, Xueying,Li, Yeling,Fu, Pingqing,Xu, Liqiang,Sun, Yao. 2017

[18]Effect of irrigation regimes and nitrogen rates on water use efficiency and nitrogen uptake in maize. Wang, Yaosheng,Wang, Yaosheng,Engedal, Tine,de Neergaard, Andreas,Janz, Baldur.

[19]Classification of geographical origins and prediction of delta C-13 and delta N-15 values of lamb meat by near infrared reflectance spectroscopy. Sun, Shumin,Guo, Boli,Wei, Yimin,Sun, Shumin,Fan, Mingtao. 2012

[20]Study on the feeding habits of fishery organisms in the Yangtze River estuary and the southern Yellow Sea in spring with delta C-13 method. Li, Zhongyi,Zhuang, Zhimeng,Dai, Fangqun,Jin, Xianshi. 2011

作者其他论文 更多>>

微信小程序