Effects of organic-matter application on phosphorus adsorption of three soil parent materials

文献类型: 外文期刊

第一作者: Yu, W.

作者: Yu, W.;Ding, X.;Xue, S.;Li, S.;Liao, X.;Wang, R.

作者机构:

关键词: Soil;parent materials;organic matter;phosphorus adsorption strength;equation-fitting

期刊名称:JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION ( 影响因子:3.872; 五年影响因子:3.771 )

ISSN: 0718-9516

年卷期: 2013 年 13 卷 4 期

页码:

收录情况: SCI

摘要: In this study, poultry manure compost and organic fertilizer were added to soils derived from basalt, granite, and river alluvial deposits for use as soil parent materials. Following incubation periods of 30 or 60 days at 25 degrees C, the physical and chemical properties and adsorption characteristics of the soils were studied. The results indicated that the application of poultry manure compost or organic fertilizer increased the available phosphorus (P) and organic matter content in all soils; however, the quantity of P and organic matter decreased with an increase in incubation time. The organic materials added via the treatments reduced the strength of P adsorption by the soil derived from basalt. For soils derived from granite and river alluvial deposits, the strength of P adsorption declined after poultry manure compost was added, but increased after the application of organic fertilizer. All soil treatments derived from basalt fitted well with the three adsorption isotherm equations. For soils derived from granite and alluvial deposit as parent materials, the data conformed to the three adsorption models in the order: Langmuir > Freundlich > Temkin. The maximum phosphate buffering capacity (MPBC) and standard P retention (SPR) of soil derived from basalt decreased following the application of poultry manure or organic fertilizer, whereas changes in MPBC and SPR for soils derived from granite and alluvial deposits were dependent on the organic content and incubation time.

分类号:

  • 相关文献

[1]Dynamics of soil carbon to nitrogen ratio changes under long-term fertilizer addition in wheat-corn double cropping systems of China. Wang, X. J.,Cong, R. H.,Xu, M. G.,Zhang, W. J.,Xie, L. J.,Wang, B. R.,Cong, R. H.,Wang, X. J.,Huang, S. M..

[2]Fungi contribute more than bacteria to soil organic matter through necromass accumulation under different agricultural practices during the early pedogenesis of a Mollisol. Li, Na,Xu, Yu-Zhi,Han, Xiao-Zeng,Zhang, Bin,He, Hong-Bo,Zhang, Xu-dong,Zhang, Bin.

[3]Influence of a heavy rainfall event on the leaching of [C-14]isoproturon and its degradation products in outdoor lysimeters. Doerfler, Ulrike,Cao, Guoyin,Grundmann, Sabine,Schroll, Reiner.

[4]Earthworms enhanced winter oilseed rape (Brassica napus L.) growth and nitrogen uptake. Zhang, Shujie,Chao, Ying,Zhang, Chunlei,Cheng, Jing,Li, Jun,Ma, Ni.

[5]N, P Contribution and soil adaptability of four arbuscular mycorrhizal fungi. Wenke, Liu.

[6]Protective function of narrow grass hedges on soil and water loss on sloping croplands in Northern China. Xiao, Bo,Wang, Qing-hai,Wu, Ju-ying,Huang, Chuan-wei,Yu, Ding-fang,Xiao, Bo.

[7]Estimation of Fluvo-aquic Soil Organic Matter from Hyperspectral Reflectance by Using Discrete Wavelet Transformation. Liao, Qinhong,Wang, Jihua,Liao, Qinhong,Wang, Jihua,Li, Cunjun,Gu, Xiaohe. 2012

[8]Distribution and sources of organic carbon, nitrogen and their isotopes in surface sediments from the largest mariculture zone of the eastern Guangdong coast, South China. Gu, Yang-Guang,Ning, Jia-Jia,Wang, Zeng-Huan,Gu, Yang-Guang,Ouyang, Jun,Ning, Jia-Jia,Wang, Zeng-Huan,Gu, Yang-Guang. 2017

[9]Visible and Near Infrared Spectroscopy Combined with Recursive Variable Selection to Quantitatively Determine Soil Total Nitrogen and Organic Matter. Jia Sheng-yao,Yang Xiang-long,Jia Sheng-yao,Yang Xiang-long,Tang Xu,Li Guang,Zhang Jian-ming. 2014

[10]Mapping farmland organic matter using HSI image and its effects of land-use types. Gu Xiaohe,Dong Yansheng,Wang Kun. 2012

[11]Carbon and nitrogen isotopes analysis and sources of organic matter in surface sediments from the Sanggou Bay and its adjacent areas, China. Xia Bin,Cui Yi,Chen Bijuan,Cui Zhengguo,Qu Keming,Ma Feifei. 2014

[12]Soil microbial communities response to herbicide 2,4-dichlorophenoxyacetic acid butyl ester. Liu, Xingang,Dong, Fengshou,Xu, Jun,Zheng, Yongquan,Li, Jing.

[13]Threshold of Soil Olsen-P in Greenhouses for Tomatoes and Cucumbers. Wu, Xue-Ping,Wu, Hui-Jun,Wang, Xiao-Bin,Li, Yin-Kun,Zhang, Yan-Cai,Li, Ruo-Nan,Wang, Li-Ying,Zhai, Cai-Xia,Chen, Li-Li,Wu, Xue-Ping,Wu, Hui-Jun,Wang, Xiao-Bin.

[14]Distribution of exogenous phytase activity in soil solid-liquid phases and their effect on soil organic P hydrolysis. Yang, Xiao Z.,Chen, Li J.,Yang, Xiao Z..

[15]Effect of organic matter and pH on mercury release from soils. Yang, Yong-Kui,Zhang, Cheng,Shi, Xiao-Jun,Lin, Tao,Wang, Ding-Yong. 2007

[16]METHANE EMISSIONS FROM RICEFIELDS AS AFFECTED BY ORGANIC AMENDMENT, WATER REGIME, CROP ESTABLISHMENT, AND RICE CULTIVAR. Wang, B,Xu, Y,Wang, Z,Li, Z,Guo, Y,Shao, K,Chen, Z.

[17]Effect of organic matter and calcium carbonate on behaviors of cadmium adsorption-desorption on/from purple paddy soils. Zhao, XiuLan.

[18]Water repellency as conditioned by physical and chemical parameters in grassland soil. Gao, Yongfei,Liu, Honglin,Wu, Hongxin,Alamus,Lin, Qimei. 2018

[19]The influence of pH and organic matter content in paddy soil on heavy metal availability and their uptake by rice plants. Ouyang, Younan,Zhang, Guoping,Zeng, Fanrong,Ali, Shafaqat,Zhang, Haitao,Qiu, Boyin,Wu, Feibo.

[20]Soil microbial respiration responses to repeated urea applications in three grasslands. Kelliher, FM,Sedcole, JR,Minchin, RF,Wan, Y,Condron, LM,Clough, TJ,Bol, R. 2005

作者其他论文 更多>>

微信小程序