Abstract

在温室盆栽条件下,分别模拟单作、间作和尼龙网分隔种植,比较接种丛枝菌根(arbuscular mycorrhizal, AM)真菌<em>Glomus intraradices</em>和<em>Glomus mosseae</em>对菌根植物玉米和非菌根植物油菜生长和磷吸收状况的影响,并分析土壤中各无机磷组分的变化。结果发现,接种AM真菌可以促进土壤中难溶性磷(Ca<sub>10</sub>-P和O-P)向有效态磷转化,并显著降低总无机磷含量 (<em>P</em><0.05),显著提高菌根植物玉米的生物量和磷吸收量(<em>P</em><0.05),特别是在间作体系中使玉米的磷营养竞争比率显著提高了45.0%-104.1% (<em>P</em><0.05),显著降低了油菜的生物量和磷吸收量(<em>P</em><0.05),从而增强了了菌根植物的竞争优势,降低了非菌根植物与菌根植物的共存能力。揭示了石灰性土壤中AM真菌对植物物种多样性的影响,有助于更加全面地理解AM真菌在农业生态系统中的作用。;Arbuscular mycorrhizal fungi (AMF) form mutualistic associations with more than 85% of terrestrial plant species and play key roles in nutrient cycling and ecosystem functioning. Most plant individual stimulates nutrient availability through their fungal partner. Highly mycorrhizal-dependent plant species derive more benefits from AMF in comparison to low mycorrhizal dependency plant species. But the effects of AMF on the competition between mycorrhizal and non-mycorrhizal plants remained largely unclear, particularly in an environment with low phosphate bioavailability. The increased phosphate availability for host plants and enhanced plant phosphorus nutrition is a major outcome of the AM symbiosis and then AMF colonization could and consequently increase plant biomass. The larger plants are then expected to be successful competitors. <br> In our previous, AMF colonization significantly decreased phosphorus concentration and content of rape roots compared with non-inoculation treatments, while in contrast mycorrhizal association improved phosphorus nutrition of maize plants. The results clearly showed the beneficial effects of mycorrhizal associations on AMF host plants in competition with non-host plants. In this previous research, plants were cultivated in purple soil with higher phosphorus availability which is more important as this determined the effect of AMF inoculation on host plant P nutrition. Then in this research, calcareous fluvo-aquic soil with lower phosphorus availability was used and different form of inorganic phosphorus were measured to reveal the effect of AMF inoculation on competition between mycorrhizal plant and non-mycorrhizal plants species. Maize (<em>Zea mays </em>L.) and rape (<em>Brassica napus </em>L.) plants were cultivated in three different interaction patterns, namely intraspecific (monoculture), intespecific (intercropping) and no interaction (nylon net split). All plants were inoculated with <em>Glomus intraradices</em>, <em>Glomus mosseae</em> or remained uninoculated. The strength of competition was measured as the reduction in biomass caused by the presence of a competitor. The results showed that AMF inoculation decreased soil inorganic phosphate significantly and transformed more Ca<sub>10</sub>-P and O-P into higher availability phosphorus form. In the intercropping treatment, the inoculation improved the plant growth and phosphorus uptake of maize, and meanwhile decreased the growth and phosphorus uptake of rape significantly. Our results clearly showed the strong competitive strength and phosphorus competitive strength of maize to rape., and the beneficial effects of mycorrhizal associations was due to the favorable growth of host plants over non-host plants. It reveals that AM fungus may play an important role in structuring plant community and needs a comprehensive insight to understand the effect of AM fungus on plant biodiversity in ecosystems.

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