Long-term effects of lime application on soil acidity and crop yields on a red soil in Central Zhejiang

文献类型: 外文期刊

第一作者: Meng, CF

作者: Meng, CF;Lu, XN;Cao, ZH;Hu, ZY;Ma, WZ

作者机构:

关键词: crop yield;liming;red soil;soil acidity;subsoil Al;Zhejiang

期刊名称:PLANT AND SOIL ( 影响因子:4.192; 五年影响因子:4.712 )

ISSN: 0032-079X

年卷期: 2004 年 265 卷 1-2 期

页码:

收录情况: SCI

摘要: A field experiment with five lime rates (0, 3.75, 7.50, 11.25, and 15.00 Mg ha(-1)) was maintained on a red soil (Ultisol) for 15 years to determine changes of soil acidity and effect on crop yields. The soil acidity decreased while exchangeable Ca in plough layer (0-20 cm) increased with lime rate and time. The decreased subsoil (20-60 cm) acidity started to occur four years after liming, and the extent of decreased soil acidity increased with lime rate and time. The increased ranges of exchangeable Mg2+ in subsoil were greater than that of exchangeable Ca2+, suggesting that downward movement of Mg2+ into the subsoil was faster than that of Ca2+. Lime application significantly increased the yields of crops studied. During the period of experiment, the maximum yield increased 4.67 times for barley, 2.24 times for mungbean, 57.3% for wheat, 53.4% for sesame, 52.8% for broad bean, 44.1% for potato, 35.1% for rapeseed, 32.1% for cotton, 28.4% for corn, 18.5% for watermelon, 11.0% for cowpea and 8.8 % for soybean. Liming at the highest rate was in favor to the decline in subsoil acidity and yield increase, especially for the later period of the experiment. Residual effects of reducing soil acidity by liming for the treatments of 0.5 L, 1.0 L, 1.5 L, and 2.0 L could last for 5, 7, 12, and 14 years, respectively, and the effects of lime application on the yields could last for more than 15 years.

分类号:

  • 相关文献

[1]Crop Yield and Soil Responses to Long-Term Fertilization on a Red Soil in Southern China. Zhang Hui-Min,Wang Bo-Ren,Xu Ming-Gang,Fan Ting-Lu,Zhang Hui-Min,Wang Bo-Ren,Xu Ming-Gang,Fan Ting-Lu,Zhang Hui-Min,Zhang Hui-Min.

[2]Determination of optimum nitrogen application rates in Zhejiang Province, China, based on rice yields and ecological security. Li Yan,Chen Yi,Wu Chun-yan,Tang Xu,Ji Xiao-jiang. 2015

[3]Fumonisin detection and analysis of potential fumonisin-producing Fusarium spp. in asparagus (Asparagus officinalis L.) in Zhejiang Province of China. Wang, Jiansheng,Wang, Xiaoping,Zhou, Ying,Wang, Qiaomei,Wang, Jiansheng,Du, Liangcheng.

[4]Long-Term Application of Chemical Fertilizers and Rice Straw on Soil Aluminum Toxicity. Qin, Ruijun,Chen, Fuxing,Gao, Jusheng.

[5]Effect of Continuous Cropping on Soil Chemical Properties and Crop Yield in Banana Plantation. Zhong, S.,Guo, G.,Zeng, H.,Jin, Z.,Zhong, S.,Mo, Y.. 2014

[6]Can liming reduce cadmium (Cd) accumulation in rice (Oryza sativa) in slightly acidic soils? A contradictory dynamic equilibrium between Cd uptake capacity of roots and Cd immobilisation in soils. Yang, Yongjie,Chen, Jiangmin,Huang, Qina,Tang, Shaoqing,Hu, Peisong,Shao, Guosheng,Chen, Jiangmin,Wang, Jianlong. 2018

[7]Effect of liming and seasonal variation on lead concentration of tea plant (Camellia sinensis (L.) O. Kuntze). Han, Wen-Yan,Shi, Yuan-Zhi,Ma, Li-Feng,Ruan, Jiang-Yun,Zhao, Fang-Jie.

[8]The control of Fusarium oxysporum in soil treated with organic material under anaerobic condition is affected by liming and sulfate content. Meng, Tianzhu,Ma, Yan,Yang, Yanju,Cai, Zucong. 2018

[9]The impact of pH and calcium on the uptake of fluoride by tea plants (Camellia sinensis L.). Ruan, JY,Ma, LF,Shi, YZ,Han, WY. 2004

[10]Microbial biomass carbon, nitrogen and phosphorus in the soil profiles of different vegetation covers established for soil rehabilitation in a red soil region of southeastern China. Wang, FE,Chen, YX,Tian, GM,Kumar, S,He, YF,Fu, QL,Lin, Q. 2004

[11]Amelioration of aluminum toxicity in red soil through use of barnyard and green manure. Qin, RJ,Chen, FX. 2005

[12]Impact of Land Use and Soil Fertility on Distributions of Soil Aggregate Fractions and Some Nutrients. Liu Xiao-Li,He Yuan-Qiu,Li Cheng-Liang,Zhou Jing,Zhang, H. L.,Schroder, J. K.,Zhang Zhi-Yong. 2010

[13]Accumulation, availability, and uptake of heavy metals in a red soil after 22-year fertilization and cropping. Zhou, Shiwei,Xu, Minggang,Sun, Nan,Liu, Jing,Lv, Jialong.

[14]Nitrification and acidification from urea application in red soil (Ferralic Cambisol) after different long-term fertilization treatments. Cai, Zejiang,Wang, Boren,Xu, Minggang,Zhang, Huimin,Zhang, Lu,Cai, Zejiang,Wang, Boren,Xu, Minggang,Zhang, Huimin,Zhang, Lu,Gao, Suduan. 2014

[15]Effects of applying magnesium fertilizer on Chinese cabbage's yield, nutrient elements' uptake and soil's fertility. Huang, Dong-Feng,Wang, Li-Min,Wei, Xiao-Qin,Luo, Tao. 2016

[16]Quantification of Anthropogenic Acidification Under Long-term Fertilization in the Upland Red Soil of South China. Meng, Hongqi,Xu, Minggang,He, Xin Hua,Wang, Boren,Cai, Zejiang,Meng, Hongqi,Meng, Hongqi,Lv, Jialong,He, Xin Hua.

[17]Long-Term Application of Organic Manure and Mineral Fertilizer on N2O and CO2 Emissions in a Red Soil from Cultivated Maize-Wheat Rotation in China. Zhai Li-mei,Liu Hong-bin,Zhang Ji-zong,Huang Jing,Wang Bo-ren. 2011

[18]Influence of Long-Term Fertilizer Treatments on the Fluorescence Spectroscopic Characterization of DOM Leached by Acid Rain From Red Soil. Zhang, Jianchao,Xun, Weibing,Zhu, Zhen,Shen, Qirong,Ran, Wei,Li, Dongchu. 2013

[19]Soil organic carbon, total nitrogen and grain yields under long-term fertilizations in the upland red soil of southern China. Zhang, Wenju,Xu, Minggang,Wang, Boren,Wang, Xiujun.

[20]Effect of nitrogen fertilization on growth and nitrogen dynamics of Chamaecrista rotundifolia cv. Minyin on red soil in southern China. Weng, Boqi,Wang, Yixiang,Li, Yanchun,Li, Yuesen.

作者其他论文 更多>>

微信小程序