文献类型: 外文期刊
第一作者: He, Xinhua
作者: He, Xinhua;Xu, Minggang;Qiu, Guo Yu;Qiu, Guo Yu;Zhou, Jianbin;He, Xinhua
作者机构:
关键词: N-15 enrichment;N-15 natural abundance (N-15);N-15 stable isotope;common mycorrhizal networks (CMNs);nitrogen transfer
期刊名称:JOURNAL OF PLANT ECOLOGY ( 影响因子:1.774; 五年影响因子:2.547 )
ISSN: 1752-9921
年卷期: 2009 年 2 卷 3 期
页码:
收录情况: SCI
摘要: Mycorrhizas (fungal roots) play vital roles in plant nutrient acquisition, performance and productivity in terrestrial ecosystems. Arbuscular mycorrhizas (AM) and ectomycorrhizas (EM) are mostly important since soil nutrients, including NH4+, NO3- and phosphorus, are translocated from mycorrhizal fungi to plants. Individual species, genera and even families of plants could be interconnected by mycorrhizal mycelia to form common mycorrhizal networks (CMNs). The function of CMNs is to provide pathways for movement or transfer of nutrients from one plant to another. In the past four decades, both N-15 external labeling or enrichment (usually expressed as atom%) and N-15 naturally occurring abundance (delta N-15, parts per thousand) techniques have been employed to trace the direction and magnitude of N transfer between plants, with their own advantages and limitations. The heavier stable isotope N-15 is discriminated against N-14 during biochemical, biogeochemical and physiological processes, due to a greater atomic mass. In general, non-N-2-fixing plants had greater delta N-15 values than N-2-fixing (similar to 0 parts per thousand) ones. Foliar delta N-15 often varied by 5 to 10 parts per thousand in the order: non-mycorrhizas/AMs > EMs >= ericoid mycorrhizas. Differences in delta N-15 (parts per thousand) or N-15 (atom%) values could thus provide N transfer information between plants. A range of between 0 to 80% of one-way N transfer had been observed from N-2-fixing mycorrhizal to non-N-2-fixing mycorrhizal plants, but generally less than or around 10% in the reverse direction. Plant-to-plant N transfer may provide practical implications for plant performance in N-limited habitats. Considering that N translocation or cycling is crucial, and the potential benefits of N transfer are great in both agricultural and natural ecosystems, more research is warranted on either one-way or two-way N transfers mediated by CMNs with different species and under field conditions.
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