Piriformospora indica enhances phosphorus absorption by stimulating acid phosphatase activities and organic acid accumulation in Brassica napus

Aims The root endophytic fungus Piriformospora indica (P. indica) colonizes the roots of a wide range of higher plants and promotes growth, disease resistance and stress tolerance of the hosts. We investigated the role of P. indica for phosphate (P) mobilization in soils enriched with different P so...

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Bibliographic Details
Published in:Plant and soil 2018-11, Vol.432 (1/2), p.333-344
Main Authors: Wu, Meiyan, Wei, Qiao, Xu, Le, Li, Huizhi, Oelmüller, Ralf, Zhang, Wenying
Format: Article
Language:English
Subjects:
Accumulation
Acid phosphatase
Acidic soils
Acids
Aluminum phosphate
Biomedical and Life Sciences
Brassica
Colonization
Disease resistance
Ecology
Endophytes
Fungi
Gene expression
Genes
Health aspects
Iron
Iron phosphates
Life Sciences
Organic acids
Organic phosphorus
Phosphatase
Phosphorus
Piriformospora indica
Plant Physiology
Plant Sciences
Plant-soil relationships
Rape (Plant)
Rape plants
Regular Article
Rhizosphere
Roots
Sand
Seedlings
Shoots
Soil phosphorus
Soil Science & Conservation
Stimulation
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Summary:Aims The root endophytic fungus Piriformospora indica (P. indica) colonizes the roots of a wide range of higher plants and promotes growth, disease resistance and stress tolerance of the hosts. We investigated the role of P. indica for phosphate (P) mobilization in soils enriched with different P sources and for P uptake into Brassicae napus (B. napus) plants. Methods Seedlings of B. napus colonized by P. indica were cultivated in pots with sterilized-sands supplied with Ca3 (PO4)2 [Ca3-P], AlPO4 [Al-P] or FePO4 [Fe-P]. The growth of the seedlings, P content, phosphatase activities, amount of organic acids, and expression of the genes BnACP5 for a phosphatase and BnPHtl;4 for a P transporter were investigated. Results Piriformospora indica promotes growth of B. napus and the accumulation of P in roots and shoots when P was supplied as Ca3-P, Al-P or Fe-P in the soil. The endophyte stimulated the P availability for the plant by higher phosphatase activities and higher expression of BnACPS in roots exposed to soil with Ca3-P, Al-P or Fe-P as main P source. The amounts of oxalic, malic and citric acids increased in rhizosphere soil with P. indica colonized by B. napus seedlings. Thus, root-colonization by P. indica promotes the accumulation of organic acids in the rhizosphere. Stronger upregulation of BnPhtl;4 in colonized vs. non-colonized roots demonstrates the involvement of the fungus in counteracting P deficiency by promoting its uptake. Conclusion P. indica promotes the mobilization of P from inorganic sources and P uptake into the roots of B. napus. This is a combined effect of the stimulation of the P solubilizing phosphatase activity in the symbiotic interaction, the production of organic acids as well as the stimulation of the BnPhtl;4 and BnACP5 genes under P limitation conditions.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-018-3795-2