[1] 王庆仁,崔岩山.不同轮作制对农田生态系统中土壤硫攫取与归还途径的研究.应用生态学报,2003,14(6):935-940.
[2] Freney J R.Forms reactions of organic sulfur compounds in soils.In:M A. Tabatabai (ed), Sulfur in Agriculture.Agronomy Series [M]. ASA, CSSA, SSSA, Madison, Wisconsin, USA. 1986,27:207-232.
[3] 熊顺贵.基础土壤学[M].北京:中国农业大学出版社,2001:233-236.
[4] 张明,王体健,张艳,等.农田生态系统大气硫沉降通量的观测研究.气象科学,2003,23(3):264-272.
[5] Mc Gill W B, Cole C V. Comparative aspects of cycling of organic C, N, S and P through soil organic matter.Geoderma,1981,26:267-286.
[6] 王庆仁,李继云.大气质量提高与农业中的硫肥需求.应用生态学报,1999,10(4):497-500.
[7] 刘崇群.中国南方土壤硫的状况和对硫肥的需求.中国硫肥的需求和发展国际学术讨论会论文集[C].北京:中国硫酸工业协会,1995:3-10.
[8] Goung P.Les apports de soufre par les eaux d’irrigation.In Symposium International surle Soufre en Agriculture [M].Versailles.INRA Pub.1970:72,412.
[9] Chao T T, Harward M E,Fang S C.Movement of 35S tagged sulfate through soil columes.Soil Sci.Soc.Proc,1962,26:27-31.
[10] 沈善敏.中国土壤肥力[M].北京:中国农业出版社,1998:341-368.
[11] Bolan N S, Syers J K, Tillman R W.Ionic strength effects on surface charge and adsorption of phosphate and sulphate by soils.Soil Sci,1986,37:379-388.
[12] Zhao F J,Wu J S,M c Grath S P.Soil organic sulphur and its turnover[M].In Humic Substances in Terrestrial Eco systems (A.P icco lo,ed),Elsevier,Oxford.1996:467-506.
[13] Tabatabai M A.Sulfur.In A.L.Payne,J.R.Freney,and R.H.Miller (eds) Methods of Soil Analysis. Part2:Chemical and Microbiological properties.2nd Edit.Agronomy Series[M].ASA.SSA.Publ.Madison.Wisconsin.USA.1982,9:501-538.
[14] Freney J R.Soil observations on the nature of organic sulphur compounds in soil.Aust Agric.Res,1961,12:424-432.
[15] 刘崇群,曹淑卿,陈国安,等.中国南方农业中的硫.土壤学报,1990,27(4):398-404.
[16] Blair G J,Lefroy R D B,Chaitep W, et al.Matching sulfur fertilizers to plant production systems.Proceedings of International Symposium of the Role of Sulphur, Magnesium and Micronutrients in Balanced Plant Nutrition[C].Chengdu, China,Match 1991.The Potash and Phosphate Institute.1992:156-175.
[17] Freney J R,Melville G E,Williams CH.Soil organic matter fractions as sources of plant available sulphur.Soil Biol,Biochem,1975,7:217-221.
[18] Zhou W, He P, Li S, Lin B. Mineralization of organic sulfur in paddy soils under flooded conditions and its availability to plants.Geoderma,2005,125:85-93.
[19] Curtin D,Syers J K.Extractability and adsorption of sulphate in soils.Soil Sci,1990,41:305-312.
[20] Singh S S.Increase in neutral salt extractable cation exchange capacity of some acid soils as affected by CaSO4 applications.Soil Sci,1984,64:153-161.
[21] 黄昌勇.土壤学[M].北京:中国农业出版社,2000:203-205.
[22] 孟格尔.K,高登祥.土壤中的硫.耕作与栽培,1994,(3):61-61.
[23] 吴金水,肖和艾.土壤微生物对硫素转化及有效性的控制作用.农业现代化研究,1999,20(6):351-354.
[24] 黄界颍,马友华,张继榛.农田生态系统中硫平衡的研究—地下水中硫的作用.土壤通报,2003,34(3):234-237.
[25] Mc Lachlan R G,Cameren K C,Fraser P M.A Comparison of the effects of sub-soiling on plant uptake and leaching losses of sulphur and nitrogen in a simulated urine patch.Plant and Soil,1993,155/156:375-378.
[26] Till A R.Sulphur cycling in grazed pastures.In K.D.Mc Lacklain (ed).Sulphur in Australasian Agriculture[M] Sydney University Press Sydney.1975:68-75.
[27] Eriksen J,Murphy M D,Schnug E.The soil sulphur cycle [A].In:Schnug,E and Beringer,H (ed):Sulphur in Agro- Ecosystems [ C ].The series Mineral Nutrition in Ecosystems. Kluwer Academic Publ. Dordrecht,1998,2:39-73.
[28] 王才斌,迟玉成,郑亚萍,等.花生硫营养研究综述.中国油料,1996,18(3):76-78.
[29] Pirela H J,Tabatabai M A.Sulphur mineralization and potential of soils.Biol Fertil Soils,1988,6:26-32.
[30] Tabatabai M A, Al-Khafaji A A.Comparison of nitrogen and sulfrur mineralization in soils.Soil Sci.Soc.Am.J,1980,44:1000-1006.
[31] Kirchmann H,Pichlmayer F,et al. Sulfur balances and sulfur-34 abundance in a long-term fertilizer experiment.Soil Sci. Soc.Am.J,1996,59:174-178.
[32] Freney J R,Spencer K.Soil sulfate changes in the presence and absence of growing plants.Australian j.Agri.Res.1960,11:339-345.
[33] Maynard D G,et al.The effects of plants on soil suphur transformation[J].Soil Biol.Biochem.1985,17(2):127-134.
[34] Bettany J R,Stewart J W B,Halstead E H.Assessment of available soil sulphur in an 35S growth chamber experiment [J].Soil Science,1974,54:309-315.
[35] Haynes R J, et al. Accumulation of soil organlic matter and the forms,mineralization potentials and plant availability of accumulated organic sulphur:effect of pasture experiment and intensive cultivation[J].Soil Biol Biochem,1992,24(3):209-217.
[36] 胡正义,张继榛,竺伟民.安徽省主要农田土壤的硫形态组份的初步研究.土壤,1996,28(3):119-122.
[37] Goh K M,Gregg P E H.Field studies on the fate of radioactive sulphur fertilizers applied to pastures.Fertilizer Res,1982,3:337-351.
[38] Saggar S, Bettany J R, Stewart J W B. Sulphur transformations in relation to carbon and nitrogen in incubated soils.Soil boil Biochem,1981,13:499-511.
[39] Wu J S, O’DonnellA G, Syers J K.Microbial growth and sulphur immobilization following the incorporation of plant residues into soil.Soil Biol Biochem,1993,25:1567-1573.
[40] O’Donnell A G, Wu J S, Syers J K. Sulphate S amendments in soil and their effects on the transformation of soil sulphur.Soil Biol Biochem, 1994,26:1507-1514.
[41] Chapman S J.Barley straw decomposition and S immobilization.Soil Biol Biochem, 1997,29:109-114.
[42] Wu J S, O’DonnellA G, Syers J K. Influence of glucose,nitrogen and plant residues on the immobilzation of sulphate S in soil. Soil BiolBiochem,1995,27:1363-1370.
[43] Smith J L, Paul E A. The significance of soil microbial biomass estimastions.In:Soil Biochemistry, Bollag, J.M.and G.Stotaky,(eds),Marcel Dekker,Inc New York. 1991:359-396.
[44] Strick land T C, F itzgerald J W, Swank W T. In situ Mobilization of 35S labelled organic sulphur in litter and soil from a hardwood forest.Soil Biol Biochem,1986,18:463-468.
[45] St rick L E, N akas J P. Calibration of a microbial sulfur technique for use in forest soils.Soil Biol Biochem,1984,16:289-498.
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