TAN Z,LAL R,OWENS L,Distribution of light and heavy fractions of soil organic carbon as related to land use and tillage practice,Soil & Tillage Research,2007.
[2]
Christensen BT.,Physical fractionation of soil and structural and functional complexity inorganic matter turnover,European journal of soil science?,2001, 52(3).
Cabaniss S E,Shuman M S,Copper binding by dissolved organic matter:Ⅰ.Suwannee River fulvic acid equilibria,Geochimica et Cosmochimica Acta,1988(1).
[10]
Cabaniss S E,Shuman M S,Copper binding by dissolved organic matter:Ⅱ.Variation in type and source organic matter,Geochimica et Cosmochimica Acta,1988(1).
[11]
Donald S G,Cooper H L,Alan W U,Light scattering measurements of Cu(Ⅱ) interdependence apparent complexing,Organic Geochemstry,1985(1).
[12]
Ritchie JD. ;Perdue EM.,Proton-binding study of standard and reference fulvic acids, humic acids, and natural organic matter,Geochimica et Cosmochimica Acta?,2003, 67(1).
[13]
Stevenson F J,Fitch A,Brar M S,Stability constants of Cu(Ⅱ)-humate complexes:Comparison of select models,Soil Science,1993(2).
[14]
Edward M,Charles R Lytle,Distribution model for binding of protons and metal ions by humic substances,Environmental Science and Technology,1983.
[15]
BAOSHAN XING ;JOSEPH J. PIGNATELLO ;BARBARA GIGLIOTTI,Competitive Sorption between Atrazine and Other Organic Compounds in Soils and Model Sorbents,Environmental Science & Technology?,1996, 30(8).
[16]
Xing B,Pignatello J J,Dual-mode sorption of low-polarity compounds in glassy poly(vinyl chloride) and soil organic matter,Environmental Science and Technology,1997(3).
[17]
Leboeuf E J,weber W J,A distributed reactivity model for sorption by soil and sediments.9.Sorbent organic domains:Discovery of a humic acid glass transition and an argument fro a polymer-basod model,Environmental Science and Technology,1997(6).
Schulten HR ;Leinweber P,Thermal stability and composition of mineral-bound organic matter in density fractions of soil.,European journal of soil science?,1999, 50(2).
[20]
Oades J M,Vassallo A M,Waters A G,Characterization of organic matter in particle size and density fractions from a red-brown earth by solid state 13C NMR,Australian Journal of Soil Research,1987(1).
[21]
Solomon D,Lehmann J,Zech W,Land use effects on soil organic matter properties of chromic luvisols in semi-arid northern Tanzania:carbon,nitrogen,lignin and carbohydrates,Agriculture Ecosystems and Environment,2000.
Chakrapani G J,Subramanian V,fractionation of heavy metals and phosphorus in suspended sediments of the yamuna river,India,Earth and Environmental Scinece,1996(2).
Archer J R,Marks M J,Control of nutrient losses to water from agricultural In Europe,Proceedings of the Fertilizer Society,2007.
[27]
Shober A L,Sims J T,Integrating phosphorus source and soil properties into risk assessments for phosphorus loss,Soil Science Society of A merica Journal,2007(2).
[28]
A.N. Sharpley ;J.L. Weld ;D.B. Beegle ;P.J.A. Kleinman ;W.J. Gburek ;P.A. Moore, Jr. ;G. Mullins,Development of phosphorus indices for nutrient management planning strategies in the United States,Journal of Soil and Water Conservation?,2003, 58(3).
[29]
van der Molen D T,Breeuwsma A,Boers P C M. Agricultural nutrient losses to surface water in the Netherlands:impact,strategies,and perspectives[J].Journal of Environmental Quality,1998,(01):4-11.
[30]
Dougherty W J,Mason S D,Burkitt L L,Relationship between phosphorus concentration in surface runoff and a novel soil phosphorus test procedure(DGT)under simulated rainfall,Soil Research,2011(6).
[31]
H Zhang ;J L Schroder ;R L Davis ;J J Wang,Phosphorus Loss in Runoff from Long-term Continuous Wheat Fertility Trials,Soil Science Society of America Journal?,2006, 70(1).
M.V.CHESHIRE ;C.DUMAT ;A.R.FRASER ;S.HILLIER ;S.STAUNTON,The interaction between soil organic matter and soil clay minerals by selective removal and controlled addition of organic matter,European journal of soil science?,2000, 51(3).
