参考文献:1. Ajwa H, Tabatabai M (1993) Comparison of some methods for determination of sulfate in soils. Commun Soil Sci Plant Anal 24:1817–1832 2. Barrow NJ (1960) A comparison of mineralization of nitrogen and of sulfur from decomposing organic materials. Aust J Agric Res 11:960–969 3. Chapman SJ (1997) Carbon substrate mineralization and sulphur limitation. Soil Biol Biochem 29:115–122 4. Dedourge O, Vong PC, Lasserre-Joulin F, Benizri E, Guckert A (2003) Immobilization of sulphur-35, microbial biomass and arylsulphatase activity in soils from field-grown rape, barley and fallow. Biol Fertil Soils 38:181–185 5. Eriksen J (2005) Gross sulphur mineralisation-immobilisation turnover in soil amended with plant residues. Soil Biol Biochem 37:2216–2224 6. Eriksen J, Mortensen JV, Nielsen JD, Nielsen NE (1995) Sulphur mineralisation in five Danish soils as measured by plant uptake in a pot experiment. Agric Ecosyst Environ 56:43–51 7. Gentile R, Vanlauwe B, Chivenge P, Six J (2011) Trade-offs between the short- and long-term effects of residue quality on soil C and N dynamics. Plant Soil 338:159–169 8. Ghani A, McLaren RG, Swift RS (1992) Sulphur mineralisation and transformations in soils as influenced by additions of carbon, nitrogen and sulphur. Soil Biol Biochem 24:331–341 9. Jensen LS, Salo T, Palmason F, Breland TA, Henriksen TM, Stenberg B, Pedersen A, Lundstrom C, Esala M (2005) Influence of biochemical quality on C and N mineralisation from a broad variety of plant materials in soil. Plant Soil 273:307–326 10. Ketterings Q, Miyamoto C, Mathur RR, Dietzel K, Gami S (2011) A comparison of soil sulfur extraction methods. Soil Sci Soc Am J 75:1578–1583 11. Kirkham D, Bartholomew WV (1954) Equations for following nutrient transformations in soil utilizing tracer data. Soil Sci Soc Am Proc 18:33–34 12. Knights JS, Zhao FJ, McGrath SP, Magan N (2001) Long-term effects of land use and fertilisers treatments on sulphur transformations in soils from the Broadbalk experiment. Soil Biol Biochem 33:1797–1804 13. Kumar K, Goh KM (2000) Crop residues and management practices: effects on soil quality, soil nitrogen dynamics, crop yield, and nitrogen recovery. Adv Agron 68:197–319 14. Lineres M, Djakovitch JL (1993) Caract茅risation de la stabilit茅 biologique des apports organiques par l’analyse biochimique. In: Decroux J, Ignazi JC (eds) Mati猫res organiques et agricultures. Gemas-Comifer, Paris, pp 59–68 15. Lisle L, Lefroy R, Anderson G, Blair G (1994) Methods for the measurement of sulphur in plants and soil. Sulphur Agric 18:45–54 16. Machinet GE, Bertrand I, Chabbert B, Recous S (2009) Decomposition in soil and chemical changes of maize roots with genetic variations affecting cell wall quality. Eur J Soil Sci 60:176–185 17. Mary B, Recous S, Darwis D, Robin D (1996) Interactions between decomposition of plant residues and nitrogen cycling in soil. Plant Soil 181:71–82 18. McLaren RG, Keer JI, Swift RS (1985) sulfur transformations in soils using S-35 labeling. Soil Biol Biochem 17:73–79 19. Niknahad-Gharmakher H, Machet JM, Beaudoin N, Recous S (2009) Estimation of sulfur mineralization and relationships with nitrogen and carbon in soils. Biol Fertil Soils 45:297–304 20. Nziguheba G, Smolders E, Merckx R (2006) Mineralization of sulfur from organic residues assessed by inverse isotope dilution. Soil Biol Biochem 38:2278–2284 21. Parton WWJ, Stewart JWB, Cole CV (1988) Dynamics of C, N, P and S in grassland soils. Biogeochemistry 5:109–131 22. Scherer HW (2001) Sulphur in crop production. Eur J Agron 14:81–111 23. Sinclair AG, Enright PD (1982) An autoanalyzer method for the determination of extractable soil sulfate using automated purification of extracts. N Z J Sci 25:141–146 24. Stevenson FJ (1986) Cycles of soil: carbon, nitrogen, phosphorus, sulfur, micronutrients. John Wiley & Sons (Eds), 285–320 25. Stewart BA, Porter LK, Viets FG (1966) Sulfur requirements for decomposition of cellulose and glucose in soil. Soil Sci Soc Am Proc 30:453–456 26. Tabatabai MA (1984) Importance of sulphur in crop production. Biogeochemistry 1:45–62 27. Tabatabai MA, Chae YM (1991) Mineralization of sulfur in soils amended with organic wastes. J Environ Qual 20:684–690 28. Trinsoutrot I, Recous S, Bentz B, Lin猫res M, Cheneby D, Nicolardot B (2000) Relationships between biochemical quality of crop residues and C and N mineralisation kinetics under non-limiting N conditions. Soil Sci Soc Am J 64:918–926 29. Van Soest PJ (1963) Use of detergent in the analysis of fibrous feeds. I. Preparation of fiber residues of low N content. J AOAC Int 46:825–835 30. Wu J, O’Donnell AG, Syers JK (1993) Microbial growth and sulphur immobilization following the incorporation of plant residues into soil. Soil Biol Biochem 25:1567–1573 31. Wu J, O’Donnell AG, Syers JK (1995) Influences of glucose, nitrogen and plant residues on the immobilization of sulphate-S in soil. Soil Biol Biochem 27:1363–1370 32. Zhao FJ, Mc Grath SP (1994) Extractable sulfate and organic sulfur in soils and their availability to plants. Plant Soil 164:243–250 33. Zhao FJ, McGrath SP, Blake-Kalff MMA, Link A, Tucker M (2002) Crop responses to sulphur fertilisation in Europe. Proceedings N掳 504, International Fertiliser Society, York, UK, p 27
作者单位:1. INRA, US1158 Unit茅 Agro-Impact, 02000 Laon, France2. INPL-ENSAIA, UMR1121 Laboratoire Agronomie et Environnement, 54505 Vand艙uvre-l猫s-Nancy cedex, France3. INRA, UMR614 Fractionnement des AgroRessources et Environnement, CREA, 2 esplanade R. Garros, 51100 Reims, France4. UMR614 Fractionnement des AgroRessources et Environnement, Universit茅 de Reims Champagne-Ardenne, 51100 Reims, France5. Rangeland management Department, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran6. INPL-ENSAIA/INRA, UMR1120 Laboratoire Sols et Environnement, 54505 Vand艙uvre-l猫s-Nancy, France
ISSN:1573-5036
文摘
Background and aims The recycling of plant residues can be an important source of available sulphate in soils. This study investigates the effects of soil sulphate availability on residue decomposition and the relationships between plant residue quality and S and C mineralization