期刊文献+

Nitrogen transfer between N_2-fixing plant and non-N_2-fixing plant

Nitrogen transfer between N_2-fixing plant and non-N_2-fixing plant
下载PDF
导出
摘要 The transfer mechanisms. calculating methods and ecological significance of nitrogen transfer between legumes and non-legumes are briefly reviewed. There are three pathways 0f nitrogen transf6r from legumes to neighboring non-legumes: (1) the nitrogen pass in soluble form from the donor legume root into the soil solution, move by diffusion or/and mass flow to the receiver root and be taken up by the latter, (2) nitrogen pass into the soil solution as before, be taken up and transported by mycorrhizal hyphae attached to the receiver roots,(3) if mycorrhizal hyphae form connections (bridges) between the two root systems, the nitrogen could pass into the fungus within the donor root and be transported into the receiver root without ever being in the soil solution. The mechanisms of nitrogen transfer between N2-fixing plants and non-N2-fixing plants are reviewed in terms of indirect and direct pathways. The indirect N-transfer process is related to the release of nitrogen from legumes(donor plants), the possible interaction of this nitrogen with soil, the decomposition and mineralization of legumes and tumover of nitrogen, the nitrogen absorbing and competing abilities of the legume and the non-legume (receiver plant). The direCt nitrogen transfer process is generally considered to be related to the nitrogen gradient and physiological imbalance between legumes and non-legumes, and when the donor legume lies in stressful stage (i.e. removal of shoots or attacked by insects), the nitrogen transfer can be improved significantly. Themethods of deterrnining nitrogen transfer (lndirect 15N-isotope. dilution method and direct 15N determination method) are evaluated, and their advantages and shortcomings are shown in this review. The transfer mechanisms. calculating methods and ecological significance of nitrogen transfer between legumes and non-legumes are briefly reviewed. There are three pathways 0f nitrogen transf6r from legumes to neighboring non-legumes: (1) the nitrogen pass in soluble form from the donor legume root into the soil solution, move by diffusion or/and mass flow to the receiver root and be taken up by the latter, (2) nitrogen pass into the soil solution as before, be taken up and transported by mycorrhizal hyphae attached to the receiver roots,(3) if mycorrhizal hyphae form connections (bridges) between the two root systems, the nitrogen could pass into the fungus within the donor root and be transported into the receiver root without ever being in the soil solution. The mechanisms of nitrogen transfer between N2-fixing plants and non-N2-fixing plants are reviewed in terms of indirect and direct pathways. The indirect N-transfer process is related to the release of nitrogen from legumes(donor plants), the possible interaction of this nitrogen with soil, the decomposition and mineralization of legumes and tumover of nitrogen, the nitrogen absorbing and competing abilities of the legume and the non-legume (receiver plant). The direCt nitrogen transfer process is generally considered to be related to the nitrogen gradient and physiological imbalance between legumes and non-legumes, and when the donor legume lies in stressful stage (i.e. removal of shoots or attacked by insects), the nitrogen transfer can be improved significantly. Themethods of deterrnining nitrogen transfer (lndirect 15N-isotope. dilution method and direct 15N determination method) are evaluated, and their advantages and shortcomings are shown in this review.
出处 《Journal of Forestry Research》 CAS CSCD 2000年第2期75-80,共6页 林业研究(英文版)
关键词 Nitrogen transfer N_2-fixing plant Non-N_2-fixing plant Nitrogen transfer N<sub>2</sub>-fixing plant Non-N<sub>2</sub>-fixing plant
  • 相关文献

参考文献10

  • 1A. M. M?rtensson,I. Rydberg,M. Vestberg.Potential to improve transfer of N in intercropped systems by optimising host-endophyte combinations[J]. Plant and Soil . 1998 (1)
  • 2H. Vierheilig,M. Alt-Hug,R. Engel-Streitwolf,P. M?der,A. Wiemken.Studies on the attractional effect of root exudates on hyphal growth of an arbuscular mycorrhizal fungus in a soil compartment-membrane system[J]. Plant and Soil . 1998 (1)
  • 3P.A. Olsson,R. Francis,D.J. Read,B. S?derstr?m.Growth of arbuscular mycorrhizal mycelium in calcareous dune sand and its interaction with other soil microorganisms as estimated by measurement of specific fatty acids[J]. Plant and Soil . 1998 (1)
  • 4A. S. Laidlaw,P. Christie,H. W. Lee.Effect of white clover cultivar on apparent transfer of nitrogen from clover to grass and estimation of relative turnover rates of nitrogen in roots[J]. Plant and Soil . 1996 (2)
  • 5Gilberto O. Tomm,Chris Kessel,Alfred E. Slinkard.Bi-directional transfer of nitrogen between alfalfa and bromegrass: Short and long term evidence[J]. Plant and Soil . 1994 (1)
  • 6S. F. Ledgard,K. W. Steele.Biological nitrogen fixation in mixed legume/grass pastures[J]. Plant and Soil . 1992 (1-2)
  • 7C. Hamel,U. Barrantes-Cartín,V. Furlan,D. L. Smith.Endomycorrhizal fungi in nitrogen transfer from soybean to maize[J]. Plant and Soil . 1991 (1)
  • 8C. Hamel,C. Nesser,U. Barrantes-Cartín,D. L. Smith.Endomycorrhizal fungal species mediate 15N transfer from soybean to maize in non-fumigated soil[J]. Plant and Soil . 1991 (1)
  • 9T. C. Ta,M. A. Faris,F. D. H. Macdowall.Evaluation of15N methods to measure nitrogen transfer from alfalfa to companion timothy[J]. Plant and Soil . 1989 (2)
  • 10T. C. Ta,M. A. Faris.Species variation in the fixation and transfer of nitrogen from legumes to associated grasses[J]. Plant and Soil . 1987 (2)

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部