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外文期刊>Canadian Journal of Botany
>Nitrogen source effects on Al toxicity in nonmycorrhizal and mycorrhizal pitch pine (Pinus rigida) seedlings. II. Nitrate reduction and NO3minus;uptake
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Nitrogen source effects on Al toxicity in nonmycorrhizal and mycorrhizal pitch pine (Pinus rigida) seedlings. II. Nitrate reduction and NO3minus;uptake
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机译:Nitrogen source effects on Al toxicity in nonmycorrhizal and mycorrhizal pitch pine (Pinus rigida) seedlings. II. Nitrate reduction and NO3minus;uptake
Nitrogen source utilization, mediated by the ectomycorrhizal symbiontPisolithus tinctorius, may modulate Al toxicity in pitch pine (Pinus rigida) seedlings. Nitrate reduction, occurring primarily in the roots of pitch pine seedlings, represents a critical metabolic pathway that may be directly sensitive to Al or indirectly affected by changes in NO3minus;availability associated with Al exposure or mycorrhizal infection. To investigate these possibilities, pitch pine seedlings were grown in sand culture with NO3minus;, NH4NO3, or NH4+and exposed to 0 or 200ensp;mu;M Al for 6 weeks. Foliar N concentrations, root nitrate reductase (NR) activity, and Al inhibition of NR activity were highly dependent on the proportion of NO3minus;of the nutrient solution. The association ofPisolithus tinctoriuswith seedling roots reduced both root and foliar NR activity compared with non-inoculated controls, suggesting that NO3minus;uptake and translocation to foliage was reduced by the symbiont. This was confirmed by using36ClO3minus;to measure unidirectional plasma membrane NO3minus;fluxes. Mycorrhizal root tips absorbed 50 less NO3minus;than nonmycorrhizal root tips. Preferential use of NH4+by ectomycorrhizal roots may thus result in reduced movement of Al into root tissue and amelioration of Al toxicity.Key words:Pinus rigida, ectomycorrhizae, aluminum toxicity, nitrogen source.
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