Journal of Ecology and Rural Environment ›› 2019, Vol. 35 ›› Issue (9): 1089-1096.doi: 10.19741/j.issn.1673-4831.2018.0636
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WU Wen-li1, YAN Jin-long1,2, JIANG Tao2, WEI Shi-qiang2
Received:
2018-10-12
Published:
2019-09-21
CLC Number:
WU Wen-li, YAN Jin-long, JIANG Tao, WEI Shi-qiang. Natural Organic Matter-Metal Ion/Oxide-Phosphorus Complexes in Environment: A Review[J]. Journal of Ecology and Rural Environment, 2019, 35(9): 1089-1096.
[1] 吴丰昌,王立英,黎文,等. 天然有机质及其在地表环境中的重要性[J].湖泊科学,2008,20(1):1-12.[WU Feng-chang,WANG Li-ying,LI Wen,et al.Natural Organic Matter and Its Significance in Terrestrial Surface Environment[J].Journal of Lake Sciences,2008,20(1):1-12.] [2] HUTCHINSON G E.A Treatise on Limnology Volume 1:Geography,Physics and Chemistry[M].New York,USA:Johg Wiley & Sons,1957:108-114. [3] STEINBERG C,MUENSTER U.Geochemistry and Ecological Role of Humic Substances in Lakewater[M]//AIKEN G R,MCKNIGHT D M,WERSHAW R L,et al.Humic Substances in Soil,Sediment and Water.New York,USA:Johg Wiley & Sons,1985:105-146. [4] DE HAAN H,JONES R I,SALONEN K.Abiotic Transformations of Iron and Phosphate in Humic Lake Water Revealed by Double-Isotope Labeling and Gel Filtration[J].Limnology and Oceanography,1990,35(2):491-497. [5] STEINBERG C,BALTES G F.Influence of Metal Compounds on Fulvic Acid/Molybdenum Blue Reactive Phosphate Associations[J].Archiv Für Hydrobiologie,1984,100:61-71. [6] GERKE J,HERMANN R.Adsorption of Orthophosphate to Humic-Fe-Complexes and to Amorphous Fe-Oxide[J].Zeitschrift Für Pflanzenernährung Und Bodenkunde,1992,155(3):233-236. [7] WELP G,HERMS U,BRÜMMER G.Einfluß von Bodenreaktion,Redoxbedingungen Und Organischer Substanz Auf Die Phosphatgehalte Der Bodenlösung[J].Zeitschrift Für Pflanzenernährung Und Bodenkunde,1983,146(1):38-52. [8] URRUTIA O,ERRO J,GUARDADO I,et al.Physico-Chemical Characterization of Humic-Metal-Phosphate Complexes and Their Potential Application to the Manufacture of New Types of Phosphate-Based Fertilizers[J].Journal of Plant Nutrition and Soil Science,2014,177(2):128-136. [9] BAIGORRI R,URRUTIA O,ERRO J,et al.Structural Characterization of Anion-Calcium-Humate Complexes in Phosphate-Based Fertilizers[J].ChemSusChem,2013,6(7):1245-1251. [10] GUARDADO I,URRUTIA O,GARCÍA-MINA J M.Size Distribution,Complexing Capacity,and Stability of Phosphate-Metal-Humic Complexes[J].Journal of Agricultural and Food Chemistry,2007,55(2):408-413. [11] URRUTIA O,GUARDADO I,ERRO J,et al.Theoretical Chemical Characterization of Phosphate-Metal-Humic Complexes and Relationships With Their Effects on Both Phosphorus Soil Fixation and Phosphorus Availability for Plants[J].Journal of the Science of Food and Agriculture,2013,93(2):293-303. [12] 王慧,易珊,付庆灵,等.铁氧化物-胡敏酸复合物对磷的吸附[J].植物营养与肥料学报,2012,18(5):1144-1152.[WANG Hui,YI Shan,FU Qing-ling,et al.Phosphorus Adsorption of Iron Oxides-Humic Acid Compounds[J].Plant Nutrition and Fertilizer Science,2012,18(5):1144-1152.] [13] YAN J L,JIANG T,YAO Y,et al.Preliminary Investigation of Phosphorus Adsorption Onto Two Types of Iron Oxide-Organic Matter Complexes[J].Journal of Environmental Sciences,2016,42:152-162. [14] YAN J L,JIANG T,YAO Y,et al.Underestimation of Phosphorus Fraction Change in the Supernatant After Phosphorus Adsorption Onto Iron Oxides and Iron Oxide-Natural Organic Matter Complexes[J].Journal of Environmental Sciences,2017,55:197-205. [15] 沈玉君,林小凤,李国学,等.外源铁、磷对堆肥腐熟的影响及"腐殖酸-Fe-P"复合体的形成初探[J].生态环境学报,2010,19(5):1232-1237.[SHEN Yu-jun,LIN Xiao-feng,LI Guo-xue,et al.Effect of FeCl3 and Ca3(PO4)2 on Composting Maturity and Study on Synthesis of Ternary Compound Substance[J].Ecology and Environmental Sciences,2010,19(5):1232-1237.] [16] YOUNG T C,COMSTOCK W G.Direct Effects and Interactions Involving Iron and Humic Acid During Formation of Colloidal Phosphorus[M]//SLY P G.Sediments and Water Interactions.New York,USA:Springer New York,1986:461-470.DOI:10.1007/978-1-4612-4932-0_40. [17] EISENREICH S J,ARMSTRONG D E.Association of Organic Matter,Iron and Inorganic Phosphorus in Lake Waters[J].Environment International,1980,3(6):485-490. [18] SHAW P J.The Effect of pH,Dissolved Humic Substances,and Ionic Composition on the Transfer of Iron and Phosphate to Particulate Size Fractions in Epilimnetic Lake Water[J].Limnology and Oceanography,1994,39(7):1734-1743. [19] FRANCKO D A.Epilimnetic Phosphorus Cycling:Influence of Humic Materials and Iron on Coexisting Major Mechanisms[J].Canadian Journal of Fisheries and Aquatic Sciences,1986,43(2):302-310. [20] DE HAAN H,BOER T.Geochemical Aspects of Aqueous Iron,Phosphorus and Dissolved Organic Carbon in the Humic Lake Tjeukemeer,the Netherlands[J].Freshwater Biology,1986,16(5):661-672. [21] GOLTERMAN H L.Natural Phosphate Sources in Relation to Phosphate Budgets:A Contribution to the Understanding of Eutrophication[J].Water Research,1973,7(1/2):3-17. [22] FRANCKO D A,HEATH R T.Functionally Distinct Classes of Complex Phosphorus Compounds in Lake Water1[J].Limnology and Oceanography,1979,24(3):463-473. [23] SIBANDA H M,YOUNG S D.Competitive Adsorption of Humus Acids and Phosphate on Goethite,Gibbsite and Two Tropical Soils[J].Journal of Soil Science,1986,37(2):197-204. [24] MOSHI A O,WILD A,GREENLAND D J.Effect of Organic Matter on the Charge and Phosphate Adsorption Characteristics of Kikuyu Red Clay From Kenya[J].Geoderma,1974,11(4):275-285. [25] SCHWERTMANN U.Inhibitory Effect of Soil Organic Matter on the Crystallization of Amorphous Ferric Hydroxide[J].Nature,1966,212(5062):645-646. [26] GUNJIGAKE N O R I A K I,WADA K.Effects of Phosphorus Concentration and Ph on Phosphate Retention by Active Aluminum and Iron of Ando Soils[J].Soil Science,1981,132(5):347-352. [27] BROBERG O,PERSSON G.Particulate and Dissolved Phosphorus Forms in Freshwater:Composition and Analysis[J].Hydrobiologia,1988,170(1):61-90. [28] QUALLS R G,HAINES B L.Geochemistry of Dissolved Organic Nutrients in Water Percolating Through a Forest Ecosystem[J].Soil Science Society of America Journal,1991,55(4):1112. [29] GERKE J.Orthophosphate and Organic Phosphate in the Soil Solution of Four Sandy Soils in Relation to pH-evidence for Humic-FE-(AL-) Phosphate Complexes[J].Communications in Soil Science and Plant Analysis,1992,23(5/6):601-612. [30] GUARDADO I,URRUTIA O,GARCIA-MINA J M.Methodological Approach to the Study of the Formation and Physicochemical Properties of Phosphate-Metal-Humic Complexes in Solution[J].Journal of Agricultural and Food Chemistry,2005,53(22):8673-8678. [31] HENS M,MERCKX R.Functional Characterization of Colloidal Phosphorus Species in the Soil Solution of Sandy Soils[J].Environmental Science & Technology,2001,35(3):493-500. [32] GERKE J.Humic (Organic Matter)-Al(Fe)-Phosphate Complexes:An Underestimated Phosphate Form in Soils and Source of Plant-Available Phosphate[J].Soil Science,2010,175(9):417-425. [33] BECKETT R,JUE Z,GIDDINGS J C.Determination of Molecular Weight Distributions of Fulvic and Humic Acids Using Flow Field-Flow Fractionation[J].Environmental Science & Technology,1987,21(3):289-295. [34] GERKE J.Phosphate,Fe and Mn Uptake of N2 Fixing Red Clover and Ryegrass From an Oxisol as Affected by P and Model Humic Substances Application.2.Phosphate and Aluminum Species Distribution as Modified by Plant Roots[J].Zeitschrift Für Pflanzenernährung Und Bodenkunde,1995,158(5):445-451. [35] RIGGLE J,VONWANDRUSZKA R.Binding of Inorganic Phosphate to Dissolved Metal Humates[J].Talanta,2005,66(2):372-375. [36] GUARDADO I,URRUTIA O,GARCIA-MINA J M.Some Structural and Electronic Features of the Interaction of Phosphate With Metal-Humic Complexes[J].Journal of Agricultural and Food Chemistry,2008,56(3):1035-1042. [37] CANDLER R,ZECH W,ALT H.Characterization of Water-Soluble Organic Substances From a Typic Dystrochrept Under Spruce Using GPC,IR,1H NMR,AND 13C NMR Spectroscopy[J].Soil Science,1988,146(6):445-452. [38] 闫金龙.铁氧化物-有机质复合物对磷的吸附与形态调控效应研究[D].重庆:西南大学,2016.[YAN Jin-long.Study on the Adsorption of Iron Oxide-Organic Matter Complex on Phosphorus and Its Regulation Effects on Phosphorus Fraction[D].Chongqing:Southwest University,2016.] [39] GERKE J,JUNGK A.Separation of Phosphorus Bound to Organic Matrices From Inorganic Phosphorus in Alkaline Soil Extracts by Ultrafiltration[J].Communications in Soil Science and Plant Analysis,1991,22(15/16):1621-1630. [40] WHITE E,PAYNE G.Distribution and Biological Availability of Reactive High Molecular Weight Phosphorus in Natural Waters in New Zealand[J].Canadian Journal of Fisheries and Aquatic Sciences,1980,37(4):664-669. [41] MINEAR R A.Characterization of Naturally Occurring Dissolved Organophosphorus Compounds[J].Environmental Science & Technology,1972,6(5):431-437. [42] RIGLER F H.Further Observations Inconsistent With the Hypothesis That the Molybdenum Blue Method Measures Orthophosphate in Lake Water[J].Limnology and Oceanography,1968,13(1):7-13. [43] JONES R I,SHAW P J,DE HAAN H.Effects of Dissolved Humic Substances on the Speciation of Iron and Phosphate at Different pH and Ionic Strength[J].Environmental Science & Technology,1993,27(6):1052-1059. [44] 闫金龙,江韬,魏世强,等.河流汇合处水体磷素形态特征及紫外光照的影响:以渠江-嘉陵江、涪江-嘉陵江交汇为例[J].环境科学,2014,35(12):4522-4529.[YAN Jin-long,JIANG Tao,WEI Shi-qiang,et al.Characteristics of Phosphorus Forms and the Effects of UV Light in the Confluences Water of Qujiang-Jialing River and Fujiang-Jialing River[J].Environmental Science,2014,35(12):4522-4529.] [45] SHARMA P,OFNER J,KAPPLER A.Formation of Binary and Ternary Colloids and Dissolved Complexes of Organic Matter,Fe and As[J].Environmental Science & Technology,2010,44(12):4479-4485. [46] ERRO J,URRUTIA O,BAIGORRI R,et al.Organic Complexed Superphosphates(C)SP:Physicochemical Characterization and Agronomical Properties[J].Journal of Agricultural and Food Chemistry,2012,60(8):2008-2017. [47] RIGGLE J,VONWANDRUSZKA R.31P NMR Peak Width in Humate-Phosphate Complexes[J].Talanta,2007,73(5):953-958. [48] KOENINGS J P,HOOPER F F.The Influence of Colloidal Organic Matter on Iron and Iron-Phosphorus Cycling in an Acid Bog Lake[J].Limnology and Oceanography,1976,21(5):684-696. [49] ERRO J,BAIGORRI R,YVIN J C,et al.31P NMR Characterization and Efficiency of New Types of Water-Insoluble Phosphate Fertilizers to Supply Plant-Available Phosphorus in Diverse Soil Types[J].Journal of Agricultural and Food Chemistry,2011,59(5):1900-1908. [50] ERRO J,URRUTIA O,SAN FRANCISCO S,et al.Development and Agronomical Validation of New Fertilizer Compositions of High Bioavailability and Reduced Potential Nutrient Losses[J].Journal of Agricultural and Food Chemistry,2007,55(19):7831-7839. [51] FAUST B C,ZEPP R G.Photochemistry of Aqueous Iron(Ⅲ)-Polycarboxylate Complexes:Roles in the Chemistry of Atmospheric and Surface Waters[J].Environmental Science & Technology,1993,27(12):2517-2522. [52] SONG W J,MA W H,MA J H,et al.Photochemical Oscillation of Fe(Ⅱ)/Fe(Ⅲ) Ratio Induced by Periodic Flux of Dissolved Organic Matter[J].Environmental Science & Technology,2005,39(9):3121-3127. [53] SOLÍRZANO L,STRICKLAND J D H.Polyphosphate in Seawate1[J].Limnology and Oceanography,1968,13(3):515-518. [54] PANT H K,WARMAN P R.Phosphorus Release From Soils Upon Exposure to Ultra-Violet Light[J].Communications in Soil Science and Plant Analysis,2000,31(3/4):321-329. [55] COTNER J B Jr,HEATH R T.Iron Redox Effects on Photosensitive Phosphorus Release From Dissolved Humic Materials[J].Limnology and Oceanography,1990,35(5):1175-1181. [56] XUE S,WANG C,ZHANG Z H,et al.Photodegradation of Dissolved Organic Matter in Ice Under Solar Irradiation[J].Chemosphere,2016,144:816-826. [57] GERKE J.Aluminum Complexation by Humic Substances and Aluminum Species in the Soil Solution[J].Geoderma,1994,63(2):165-175. [58] LIU G L,FERNANDEZ A,CAI Y.Complexation of Arsenite With Humic Acid in the Presence of Ferric Iron[J].Environmental Science & Technology,2011,45(8):3210-3216. [59] SUNDMAN A,KARLSSON T,SJÖBERG S,et al.Complexation and Precipitation Reactions in the Ternary As(Ⅴ)-Fe(Ⅲ)-OM (Organic Matter) System[J].Geochimica Et Cosmochimica Acta,2014,145:297-314. [60] LI F L,GUO H M,ZHOU X Q,et al.Impact of Natural Organic Matter on Arsenic Removal by Modified Granular Natural Siderite:Evidence of Ternary Complex Formation by HPSEC-UV-ICP-MS[J].Chemosphere,2017,168:777-785. [61] YAMANI J S,LOUNSBURY A W,ZIMMERMAN J B.Towards a Selective Adsorbent for Arsenate and Selenite in the Presence of Phosphate:Assessment of Adsorption Efficiency,Mechanism,and Binary Separation Factors of the Chitosan-Copper Complex[J].Water Research,2016,88:889-896. [62] 厉月含.纳米Al2O3在海水中的沉降及其对磷和腐殖酸的吸附研究[D].厦门:厦门大学,2014.[LI Yue-han.Study on the Sedimentation of Nano-Al2O3 and the Adsorption of Phosphate and Humic Acid in Seawater[D].Xiamen:Xiamen University,2014.] |
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