Title of article
Microbial gross organic phosphorus mineralization can be stimulated by root exudates – A 33P isotopic dilution study
Author/Authors
Spohn، نويسنده , , Marie and Ermak، نويسنده , , Anton and Kuzyakov، نويسنده , , Yakov، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2013
Pages
10
From page
254
To page
263
Abstract
Phosphorus (P) is one of the most important nutrients for plant growth. While most studies on microbial P mobilization, i.e. on mineralization of organic P and solubilization of inorganic P, focus on mycorrhiza, P mobilization by non-mycorrhizal microorganisms in soil is little explored. In this study we address the question whether root exudates stimulate organic P mineralization by non-mycorrhizal microorganisms. A 33P isotopic dilution approach was applied to investigate microbial gross P mineralization in top- and subsoil horizons of three forest soils differing in P concentrations (Leptosol, Podzol, and Cambisol). To simulate the effects of root exudates on microbial gross P mineralization, glucose, alanine, and methionine were added in rhizosphere-relevant concentrations (12 mg carbon (C) g−1 soil organic C). Based on 33P isotopic dilution we showed that glucose and alanine addition increased gross P mineralization rates up to a factor of 20 and 31, respectively. In contrast, methionine had little effect on microbial gross P mineralization rates. Phosphatase activity was increased most strongly due to the addition of alanine and glucose by factors of up to 6 and 4, respectively. Fifteen days after addition of artificial root exudates, microbial P concentrations and 33P recovery in the microbial biomass were only slightly and not consistently changed. In conclusion, the results show that alanine and glucose can stimulate microbial gross P mineralization and phosphatase activity, and that structure and stoichiometry of root exudates significantly shape the extent of stimulation of microorganisms. Our study indicates that stimulation of non-mycorrhizal microorganisms by root exudates might be an important strategy of plants to increase the availability of P in soils.
Keywords
Gross organic P mineralization , 33P isotopic dilution , Rhizosphere , root exudates , phosphatase , priming effects , Rhizodeposition , microbial activity , Stoichiometry
Journal title
Soil Biology and Biochemistry
Serial Year
2013
Journal title
Soil Biology and Biochemistry
Record number
2186174
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