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Ann. For. Sci.
Volume 65, Number 4, June 2008
Article Number 405
Number of page(s) 9
Published online 30 May 2008
References of  Ann. For. Sci. 65 (2008) 405
  1. Ågren G.K., Bosatta E., and Magill A.H., 2001. Combining theory and experiment to understand effects of inorganic nitrogen on litter decomposition. Oecologia 128: 94-98 [CrossRef].
  2. Berg B., 1986. Nutrient release from litter and humus in coniferous soils - a mini review. Scand. J. For. Res. 1: 359-369 [CrossRef].
  3. Berg B. and Ekbohm G., 1991. Litter mass-loss rates and decomposition patterns in some needle and leaf litter types. Long-term decomposition in a Scots pine forest. VII. Can. J. Bot. 69: 1449-1456.
  4. Berg B. and Matzner E., 1997. Effect of N deposition on decomposition of plant litter and soil organic matter in forest systems. Environ. Rev. 5: 1-25 [CrossRef].
  5. Berg M.P., Kniese J.P., Zoomer R., and Verhoef H.A., 1998. Long-term decomposition of successive organic strata in a nitrogen saturated Scots pine forest soil. For. Ecol. Manage. 107: 159-172 [CrossRef].
  6. Carreiro M.M., Sinsabaugh R.L., Repert D.A., and Parkhurst D.F., 2000. Microbial enzyme shifts explain litter decay responses to simulated nitrogen deposition. Ecology 81: 2359-2365 [CrossRef].
  7. Cleveland C.C., Reed S.C., and Townsend A.R., 2006. Nutrient regulation of organic matter decomposition in a tropical rain forest. Ecology 87: 492-503 [PubMed] [CrossRef].
  8. Craine J.M., Morrow C., and Fierer N., 2007. Microbial nitrogen limitation increases decomposition. Ecology 88: 2105-2113 [PubMed] [CrossRef].
  9. Fang Y.T., Zhu W.X., Mo J.M., Zhou G.Y., and Gundersen P., 2006. Dynamics of soil inorganic nitrogen and their responses to nitrogen additions in three subtropical forests, South China. Journal of Environmental Sciences 18: 752-759.
  10. Fang H., Mo J.M., Peng S.L., Li Z.A., and Wang H., 2007. Cumulative effects of nitrogen additions on litter decomposition in the three tropical forests in southern China. Plant Soil 297: 233-242 [CrossRef].
  11. Fog K., 1988. The effect of added nitrogen on the rate of decomposition of organic matter. Biological Reviews of the Cambridge Philosophical Sciety 63: 433-462 [CrossRef].
  12. Fog K., 1998. The effect of added nitrogen on the rate of decomposition of organic matter. Biol. Rev. 63: 433-462 [CrossRef].
  13. Galloway J.N., Dentener F.J., Capone D.G., Boyer E.W., Howarth R.W., Seitzinger S.P., Asner G.P., Cleveland C.C., Green P.A., Holland E.A., Karl D.M., Michaels A.F., Porter J.H., Townsend A.R., and Vorosmarty C.J., 2004. Nitrogen Cycles: Past, Present, and Future, Biogeochemistry 70: 153-226.
  14. Hagedorn F., Spinnler D., and Siegwolf R., 2003. Increased N deposition retards mineralization of old soil organic matter. Soil Biol. Biochem. 35: 1683-1692 [CrossRef].
  15. He C.H., Chen S.Q., and Liang Y.A., 1982. The soils of Ding Hu Shan Biosphere Reverve. Tropical and subtropical forest ecosystem 1: 25-38 (in Chinese with English abstract).
  16. He S. and Yu Z., 1984. The studies on the reconstruction of vegetation in tropical coastal eroded land in Guangdong. Tropical and subtropical forest ecosystem 2: 87-90 (in Chinese with English abstract).
  17. Holdridge L.R., 1967. Life zone ecology. Tropical Science Center, San Jose, Costa Rica.
  18. Huang Z.F. and Fan Z.G., 1982. The climate of Ding Hu Shan. Tropical and subtropical forest ecosystem 1: 11-23 (in Chinese with English abstract).
  19. Huang Z.L., Ding M.M., Zhang Z.P., and Yi W.M., 1994. The hydrological processes and nitrogen dynamics in a monsoon evergreen broad-leafed forest of Dinghu shan. Acta Phytoecologia Sinica 18: 194-199 (in Chinese with English abstract).
  20. Jensen L.E. and Nybroe O., 1999. Nitrogen availability to Pseudomonas fluorescens DF57 is limited during decomposition of barley straw in bulk soil and in the barley rhizosphere. Appl. Environ. Microb. 65: 4320-4328.
  21. Liu G.S., Jiang N.H., Zhang L.D., and Liu Z.L., 1996. Soil physical and chemical analysis and description of soil profiles. Beijing: Standards Press of China, pp. 121-265 (in Chinese).
  22. Liu G.H., Fu B.J., Chen L.D., and Guo X.D., 2000. Characteristics and distributions of degraded ecological types in China. Acta Ecological Sinica 20: 13-19 (in Chinese with English abstract).
  23. Lu X.K., Mo J.M., Gundersen P. Zhu W.X., Zhou G.Y., Li D.J., and Zhang X., 2008. Effects of simulated N deposition on soil exchangeable cations in three forest land-use types in subtropical China. Pedosphere (in press).
  24. Ma X.H., 1989. Effects of rainfall on the nutrient cycling in man-made forests of Cunninghamia lanceolata and Pinus massoniana. Acta Ecologica Sinica 9: 15-20 (in Chinese with English abstract).
  25. Magill A.H. and Aber J.D., 1998. Long-term effects of experimental nitrogen addition on foliar litter decay and humus formation in forest ecosystems. Plant Soil 203: 301-311 [CrossRef].
  26. Magill A.H., Aber J.D., Berntsone G.M., McDowell W., Nadelhoffer K., Melillo J., and Steudler P., 2000. Long-term nitrogen additions and nitrogen saturation in two temperate forests. Ecosystem 3: 238-253 [CrossRef].
  27. McGroddy M.E., Silver W.L., and Cosme de Oliveira J.R., 2004. The effect of phosphorus availability on decomposition dynamics in a seasonal lowland Amazonian forest. Ecosystems 7: 172-179.
  28. Micks P., Down M.R., Magill A.H., Nadelhoffer K.J., and Aber J.D., 2004. Decomposition litter as a sink for 15N-enriched additions to an oak forest and a red pine plantation. For. Ecol. Manage. 196: 71-87 [CrossRef].
  29. Mo J.M., Brown S., Lenart M., and Kong G.H., 1995. Nutrient dynamics of a human-impacted pine forest in a MAB Reserve of subtropical China. Biotropica 27: 290-304 [CrossRef].
  30. Mo J.M., Brown S., Peng S.L., and Kong G.H., 2003. Nitrogen availability in Disturbed, Rehabilitated and mature forests of Tropical China. For. Ecol. Manage. 175: 573-583 [CrossRef].
  31. Mo J.M., Brown S., Xue J.H., Fang Y.T., and Li Z.A., 2006. Response of litter decomposition to simulated N deposition in disturbed, rehabilitated and mature forests in subtropical China. Plant Soil 282: 135-151 [CrossRef].
  32. Mo J.M., Brown S., Xue J.H., Fang Y.T., Li Z.A., Li D.J., and Dong S.F., 2007. Response of nutrient dynamics of decomposing pine (Pinus massoniana) needles to simulated N deposition in a disturbed and rehabilitated forest in tropical China. Ecol. Res. 22: 649-658 [CrossRef].
  33. Moorhead D.L. and Sinsabaugh R.L., 2006. A theoretical model of litter decay and microbial interaction. Ecological Monographs 76: 151-174 [CrossRef].
  34. Neff J.C., Townsend A.R., Gleixner G., Lehman S.J., Turnbull J., and Bowman W.D., 2002. Variable effects of nitrogen additions on the stability and turnover of soil carbon. Nature 419: 915-917 [PubMed] [CrossRef].
  35. Olson J.S., 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology 44: 322-331 [CrossRef].
  36. Osono T. and Takeda H., 2004. Accumulation and release of nitrogen and phosphorus in relation to lignin decomposition in leaf litter of 14 tree species. Ecol. Res. 19: 593-602 [CrossRef].
  37. Parton W., Silver W., Burke I.C., Grassens L., Harmon M., Currie W.S., King J.Y., Adair E.C., Brandt L.A., Hart S.C., and Fasth B., 2007. Global-scale similarities in nitrogen release patterns during long-term decomposition. Science 315: 361 [PubMed] [CrossRef].
  38. Prescott C.E., 1996. Influence of forest floor type on rates of litter decomposition in microcosms. Soil Biol. Biochem. 28: 1436-1443.
  39. Prescott C.E., Kabzems R., and Zabek L.M., 1999. Effects of fertilization on decomposition rate of Populus tremuloides foliar litter in a boreal forest. Can. J. For. Res. 29: 393-397 [CrossRef].
  40. Ren R., Mi F.J., and Bai N.B., 2000. A chemometrics analysis on the data of precipitation chemistry of China. Journal of Beijing Polytechnic University 26: 90-95.
  41. Sundarapandian S.M. and Swamy P.S., 1999. Litter production and leaf-litter decomposition of selected tree species in tropical forests at Kodayar in the Western Ghats, India. For. Ecol. Manage. 123: 231-244 [CrossRef].
  42. Vestgarden L.S., 2001. Carbon and nitrogen turnover in the early stage of Scots pine (Pinus sylvestris L.) needle litter decomposition: effects of internal and external nitrogen. Soil Biol. Biochem. 33: 465-474 [CrossRef].
  43. Vitousek P.M., 1998. Foliar and litter nutrients, nutrient resorption, and decomposition in Hawaiian Metrosideros polymorpha. Ecosystems 1: 401-407 [CrossRef].
  44. Wang Z., He D., Song S., Chen S., Chen D., and Tu M., 1982. The vegetation of Dinghushan Biosphere Reserve. Tropical and subtropical forest ecosystem 1: 77-141 (in Chinese with English abstract).
  45. Xu Y.G., Zhou G.Y., Luo T.S., Wu Z.M., and He Z.C., 2001. Soil solution chemistry and element budget in the forest ecosystem in Guangzhou. Acta Ecological Sinica 21: 1670-1681 (in Chinese with English abstract).
  46. Xu X.N., 2006. Nutrient dynamics in decomposing needles of Pinus luchuensis after typhoon disturbance in a subtropical environment. Ann. For. Sci. 63: 707-713 [EDP Sciences] [CrossRef].
  47. Zhang D.Q., Ye W.H., Yu Q.F., Kong G.H., and Zhang Y.C., 2000. The litter-fall of representative forests of successional series in Dinghushan. Acta Eclogica Sinica 20: 938-944 (in Chinese with English abstract).
  48. Zheng X., Fu C., Xu X., Xiaodong Y., Huang Y., Chen G., Han S., and Hu F., 2002. The Asian nitrogen cycle case study. Ambio 31: 79-87 [PubMed] [CrossRef].
  49. Zhou G.Y. and Yan J.H., 2001. The influence of region atmospheric precipitation characteristics and its element inputs on the existence and development of Dinghushan forest ecosystems. Acta Eclogica Sinica 21: 2002-2012 (in Chinese with English abstract).