Investigations on the Thermodynamic Stability and Availability of Nutrients for Plants by Humic Substances Extracted from Peat Samples
Investigations on the Thermodynamic Stability and Availability of Nutrients for Plants by Humic Substances Extracted from Peat Samples
参考文献43
-
1Piccolo, A., Pietramellara, G., and Mbagwu, J. 1997. "Use of Humic Substances as Soil Conditioners to Increase Aggregate Stability." Geoderma 75: 267-277.
-
2Tan, K. H. 2014. Humic Matter in Soil and theEnvironment: Principles and Controversies. Boca Ranton: CRC Press.
-
3Kulikova, N., and Perminova, I. 2002. "Binding of Atrazine to Humic Substances from Soil, Peat and Coal Related to Their Structure." Environmental Science & Technology 36: 3720-3724.
-
4Davies, G., and Ghabbour, E. 2003. Humic Substances: Nature's Most Versatile Materials. New York: Taylor & Francis.
-
5Chien, S. W. C., Chen, C. Y., Chang, J. H., Chen, S. H., Wang, M. C., and Mannepalli, M. R. 2010. "Sorption of Toluene by Humic Acids Derived from Lake Sediment and Mountain Soil at Different pH." Journal Hazardous Materials 177:1068-1076.
-
6Chai, X. L., Liu, G. X., Zhao, X., Hao, Y. X., and Zhao, Y. C. 2012. "Complexion between Mercury and Humic Substances from Different Landfill Stabilization Processes and Its Implication for the Environment." Journal Hazardous Materials 209: 59-66.
-
7Ghabbour, E. A., Davies, G., and Chemistry, R. 2001. Humic Substances: Structures, Models and Functions. London: Royal Society of Chemistry.
-
8Segnini, A., Posadas, A., Quiroz, R., Milori, D., Saab, S., and Neto, L. et al. 2010. "Spectroscopic Assessment of Soil Organic Matter in Wetlands from the High Andes." Soil Science Society of America Journal 74: 2246-2253.
-
9Segnini, A., De-Souza, A. A., Novotny, E. H., Mllon, D. M. B. P., Da-Silva, W. T. L., and Bonagamba, T. J. et al. 2013. "Characterization of Peatland Soils from the High Andes through C-13 Nuclear Magnetic Resonance Spectroscopy." Soil Science Society of America Journal 77: 673-679.
-
10Senesi, N. 1992. Biogeochemistry of Trace. Boca Raton: Lewis Publishers.
-
1刘莲生,张正斌,王修林.测定天然水中配位体络合容量和表观稳定常数的一种新方法[J].科学通报,1989,34(7):510-513. 被引量:1
-
2Xidan FENG,Yan LIU,Zhi DANG,Weilin HUANG.Bioavailability of heavy metals in urban particles[J].Chinese Journal Of Geochemistry,2006,25(B08):224-224.
-
3Eubica Pospisilová,Ida Drapelová,Vojtěch Enev.Characterization of Compost and Soil Humic Substances by Fluorescence Spectroscopy[J].Journal of Life Sciences,2014,8(4):364-372.
-
4XIE Li,SHANG Chii,ZHOU Qi.Effect of Fe(Ⅲ) on the bromate reduction by humic substances in aqueous solution[J].Journal of Environmental Sciences,2008,20(3):257-261. 被引量:4
-
5于世钧,黎明.取代基对二苯并冠醚与Pb^(2+)和Cd^(2+)络合容量的影响[J].辽宁师范大学学报(自然科学版),1989,12(4):49-52.
-
6Xuyin YUAN,Xu DENG,Zhiyong SHEN,Bing LIU,Ying CHEN.Contamination and bioavailability of heavy metals in sediments from the Yangtze River Delta Region[J].Chinese Journal Of Geochemistry,2006,25(B08):91-91.
-
7王永辉,黄延林.电位溶出滴定法研究──滴定曲线理论分析与应用[J].西安冶金建筑学院学报,1994,26(2):144-149.
-
8Guangxia QI,Dongbei YUE,Yongfeng NIE.Characterization of humic substances in bio-treated municipal solid waste landfill leachate[J].Frontiers of Environmental Science & Engineering,2012,6(5):711-716. 被引量:6
-
9陈若暾,A.M.Gunn.英格兰北部天然水体对Al^(3+)、Fe^(3+)的络合容量[J].同济大学学报(自然科学版),1991,19(3):363-366. 被引量:1
-
10郭艳玲,齐景韶,索奎钤.新型有机硅聚合物冠醚的合成及其络合性能研究[J].化学研究,1998,9(2):50-53.