Li Huiying, Smith Sally E, Holloway Robert E, Zhu Yongguan, Smith F Andrew
Centre for Soil-Plant Interactions, Soil and Land Systems, School of Earth and Environmental Sciences, Waite Campus, DP636, The University of Adelaide, South Australia, 5005, Australia.
New Phytol. 2006;172(3):536-43. doi: 10.1111/j.1469-8137.2006.01846.x.
We used 32P to quantify the contribution of an arbuscular mycorrhizal (AM) fungus (Glomus intraradices) to phosphorus (P) uptake by wheat (Triticum aestivum), grown in compartmented pots. The soil was from a major cereal-growing area, the Eyre Peninsula, South Australia; it was highly calcareous and P-fixing. Fertilizer P was added to soil at 20 mg kg(-1), as solid or liquid. Two extraction methods were used to estimate plant-available P. Fungal colonization was well established at harvest (36 d). Application of P decreased both colonization and hyphal length density in soil, with small differences between different P fertilizers. Plants showed large positive responses in terms of growth or total P uptake to all P additions, and showed no positive (or even negative) responses to AM colonization, regardless of P application. 32P was detected only in AM plants, and we calculated that over 50% of P uptake by plants was absorbed via AM fungi, even when P was added. The results add to the growing body of knowledge that 'nonresponsive' AM plants have a functional AM pathway for P transfer to the plant; it should not be ignored in breeding plants for root traits designed to improve P uptake.
我们使用³²P来量化在分隔花盆中生长的小麦(普通小麦)丛枝菌根(AM)真菌(根内球囊霉)对磷(P)吸收的贡献。土壤取自南澳大利亚艾尔半岛一个主要的谷物种植区,该土壤高度石灰质且固磷。以固体或液体形式向土壤中添加20 mg kg⁻¹的肥料P。使用两种提取方法来估算植物有效磷。在收获时(36天),真菌定殖情况良好。施磷降低了土壤中的定殖率和菌丝长度密度,不同磷肥之间差异较小。所有施磷处理的植株在生长或总磷吸收方面均表现出明显的正向响应,且无论施磷与否,对AM定殖均无正向(甚至负向)响应。仅在AM植株中检测到³²P,我们计算得出,即使添加了P,植物吸收的磷中超过50%是通过AM真菌吸收的。这些结果进一步丰富了以下知识体系:“无响应”的AM植株具有将磷转移到植物中的功能性AM途径;在培育旨在改善磷吸收的根系性状的植物时,不应忽视这一点。
