Long-term fertilization impacts on corn yields and soil organic matter on a clay-loam soil in Northeast China

文献类型: 外文期刊

第一作者: Zhu, Ping

作者: Zhu, Ping;Ren, Jun;Wang, Lichun;Zhang, Xiaoping;Yang, Xueming;MacTavish, Don

作者机构:

关键词: corn yield;farmyard manure;long-term experiment;mineral fertilizer;monoculture;soil organic matter

期刊名称:JOURNAL OF PLANT NUTRITION AND SOIL SCIENCE-ZEITSCHRIFT FUR PFLANZENERNAHRUNG UND BODENKUNDE ( 影响因子:1.595; 五年影响因子:1.766 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: A long-term fertilization experiment with monoculture corn (Zea mays L.) was established in 1980 on a clay-loam soil (Black Soil in Chinese Soil Classification and Typic Halpudoll in USDA Soil Taxonomy) at Gongzhuling, Jilin Province, China. The experiment aimed to study the sustainability of grain-corn production on this soil type with eight different nitrogen (N)-, phosphorus (P)-, and potassium (K)-mineral fertilizer combinations and three levels (0, 30, and 60 Mg ha-1 y-1) of farmyard manure (FYM). On average, FYM additions produced higher grain yields (7.78 and 8.03 Mg ha-1) compared to the FYM0 (no farmyard application) treatments (5.67 Mg ha-1). The application of N fertilizer (solely or in various combinations with P and K) in the FYM0 treatment resulted in substantial grain-yield increases compared to the FYM0 control treatment (3.56 Mg ha-1). However, the use of NP or NK did not yield in any significant additional effect on the corn yield compared to the use of N alone. The treatments involving P, K, and PK fertilizers resulted in an average 24% increase in yield over the FYM0 control. Over all FYM treatments, the effect of fertilization on corn yield was NPK > NP = NK = N > PK = P > K = control. Farmyard-manure additions for 25 y increased soil organic-matter (SOM) content by 3.8 g kg-1 (13.6%) in the FYM1 treatments and by 7.8 g kg-1 (27.8%) in the FYM2 treatments, compared to a 3.2 g kg-1 decrease (11.4%) in the FYM0 treatments. Overall, the results suggest that mineral fertilizers can maintain high yields, but a combination of mineral fertilizers plus farmyard manure are needed to enhance soil organic-matter levels in this soil type.

分类号: S1

  • 相关文献

[1]Soil organic carbon sequestration under different fertilizer regimes in north and northeast China: RothC simulation. Wang, J.,Lu, C.,Xu, M.,Zhang, W.,Zhu, P.,Peng, C.,Huang, S.,Chen, X.,Wu, L.. 2013

[2]The combination of subsoil and the incorporation of corn stover affect physicochemical properties of soil and corn yield in semi-arid China. Bai, Wei,Bai, Wei,Sun, Zhanxiang,Zheng, Jiaming,Liu, Yang,Hou, Zhiyan,Feng, Liangshan,Qian, Cai,Yang, Ning,Chen, Feng,Zhe, Zhang.

[3]Effect of long-term fertilization on soil aggregate-associated dissolved organic nitrogen on sloping cropland of purple soil. Hua, K. K.,Guo, X. S.,Wang, D. Z.,Guo, Z. B.,Hua, K. K.,Zhu, B.,Wang, X. G.. 2014

[4]Vegetable yields and soil biochemical properties as influenced by fertilization in Southern China. Gai, Xiapu,Liu, Hongbin,Zhai, Limei,Wang, Hongyuan,Tan, Guangcai,Liu, Jian,Ren, Tianzhi,Wang, Hongyuan.

[5]Long-term effects of manure and fertilization on soil organic matter and quality parameters of a calcareous soil in NW China. Yang, Sheng-Mao,Malhi, Sukhdev S.,Li, Feng-Min,Suo, Dong-Rang,Xu, Ming-Gang,Wang, Ping,Xiao, Guo-Ju,Jia, Yu,Guo, Tian-Wen,Wang, Jian-Guo.

[6]Crop yield, nitrogen uptake and nitrate-nitrogen accumulation in soil as affected by 23 annual applications of fertilizer and manure in the rainfed region of Northwestern China. Yang, Sheng-Mao,Malhi, S. S.,Song, Jian-Rong,Xiong, You-Cai,Yue, Wei-Yun,Lu, Li Li,Wang, Jian-Guo,Guo, Tian-Wen. 2006

[7]Evaluating crop response and environmental impact of the accumulation of phosphorus due to long-term manuring of vertisol soil in northern China. Hua, Keke,Guo, Zhibin,Wang, Daozhong,Zhang, Wenju,Oenema, Oene.

[8]Effects of planting pattern on growth and yield and economic benefits of cotton in a wheat-cotton double cropping system versus monoculture cotton. Lu Feng,Cao, Weixing,Guoping Wang,Yingchun Han,Yabing Li,Yan Zhu,Zhiguo Zhou,Weixing Cao.

[9]Cascade effects of crop species richness on the diversity of pest insects and their natural enemies. Shi PeiJian,Zhao ZiHua,Ouyang Fang,Ge Feng,Cao HaiFeng,Shi PeiJian,Jin XianShi,Hui Cang,Men XingYuan,Li, B. Larry. 2014

[10]Ecological effects of co-culturing sea cucumber Apostichopus japonicus (Selenka) with scallop Chlamys farreri in earthen ponds. Ren Yichao,Dong Shuanglin,Wang Fang,Tian Xiangli,Gao Qinfeng,Qin Chuanxin. 2012

[11]Soil bacterial diversity changes in different broomcorn millet intercropping systems. Cao, Xiaoning,Liu, Sichen,Wang, Junjie,Wang, Haigang,Chen, Ling,Tian, Xiang,Zhang, Lijun,Chang, Jianwu,Wang, Lun,Mu, Zhixin,Qiao, Zhijun. 2017

[12]Population growth rate of Setaria viridis in the absence of herbicide: resulting yield loss in foxtail millet Setaria italica. Darmency, H.,Wang, T.,Shi, Y.,Li, Y.,Song, Y.. 2010

[13]Effect of nitrogen fertilization on yield, N content, and nitrogen fixation of alfalfa and smooth bromegrass grown alone or in mixture in greenhouse pots. Xie Kai-yun,Li Xiang-lin,He Feng,Wan Li-qiang,Wang Dong,Qin Yen,Fadull, Gamal M. A.,Xie Kai-yun,Zhang Ying-jun,Hannaway, David B.. 2015

[14]Soil Microbiological and Biochemical Properties as Affected by Different Long-Term Banana-Based Rotations in the Tropics. Zhong Shuang,Jin Zhiqiang,Zhong Shuang,Zeng Huicai. 2015

[15]Response of soil nematode community composition and diversity to different crop rotations and tillage in the tropics. Zhong Shuang,Jin Zhi-qiang,Zhong Shuang,Zeng Hui-cai.

[16]Bacterial community in peanut soils in various cropping systems. Huang, Y. Q.,Han, L. S.,Tao, T. T.,Yao, Y. C.,Yang, J. F.,Liang, C. H.,Xie, J. H.,Han, X. R.,Han, L. S.,Liang, C. H.,Xie, J. H..

[17]Effects of Long-Term Green Manure Application on the Concentrations of Mineral Elements in Grain of Dryland Wheat in Northwest of China. Bai Jin-shun,Cao Wei-dong,Zeng Nao-hua,Gao Song-juan,Cao Wei-dong,Bao Xing-guo,Rui Yu-kui,Katsuyoshi, Shimizu. 2017

[18]Distribution of soil nutrients, extracellular enzyme activities and microbial communities across particle-size fractions in a long-term fertilizer experiment. Zhang, Qian,Zhou, Wei,Liang, Guoqing,Sun, Jingwen,Wang, Xiubin,He, Ping.

[19]Long-term effects of potassium fertilization and straw return on soil potassium levels and crop yields in north-central China. Zhao, Shicheng,He, Ping,Qiu, Shaojun,Jin, Jiyun,He, Ping,He, Ping,Johnston, Adrian M.,Jia, Liangliang,Liu, Mengchao,Johnston, Adrian M..

[20]Using the DSSAT-CERES-Maize model to simulate crop yield and nitrogen cycling in fields under long-term continuous maize production. Liu, H. L.,Yang, J. Y.,Drury, C. F.,Reynolds, W. D.,Tan, C. S.,Liu, H. L.,Bai, Y. L.,He, P.,Jin, J.,He, P.,Jin, J.,Hoogenboom, G..

作者其他论文 更多>>

微信小程序