Phosphorus mineralization can be driven by microbial need for carbon

矿化(土壤科学) 环境化学 土壤水分 化学 营养物 氮气循环 微生物 孵化 氮气 磷酸盐 农学 生物 生物化学 生态学 细菌 有机化学 遗传学
作者
Marie Spohn,Yakov Kuzyakov
出处
期刊:Soil Biology & Biochemistry [Elsevier BV]
卷期号:61: 69-75 被引量:337
标识
DOI:10.1016/j.soilbio.2013.02.013
摘要

Despite the importance of phosphorus (P) mineralization to maintain soil fertility, little is known about the mechanisms that regulate microbial P mineralization. We tested the hypothesis that microbial P mineralization can be driven by microbial need for carbon (C). For this purpose, net microbial uptake kinetics of 14C and 33P from glucose-6-phosphate were studied in a Leptosol depending on availability of C, nitrogen (N), and P. After 60 h of incubation, 16.4% of the 14C from glucose-6-phosphate was recovered in the microbial biomass, while 33P incorporation into the microbial biomass was a third less. The higher net uptake of 14C than of 33P from the glucose-6-phosphate indicates that soil microorganisms use the organic moiety of phosphorylated organic compounds as a C source, but only use a small proportion of the P. Hence, they mineralize P without incorporating it. Our finding that the net uptake of 14C and 33P in the soils amended with inorganic P did not differ from the control treatment indicates that P mineralization was not driven by microbial need for P but rather for C. In a second experiment with three temperate forest soils we found that the activity of 14C from glucose-6-phosphate in soil solution decreased faster than the activity of 33P from glucose-6-phosphate. This might suggest that higher net uptake of C than of P from glucose-6-phosphate can also be observed in other temperate forest soils differing in C, N, and P contents from the Leptosol of the main experiment. In conclusion, the experiments show that microbial P mineralization can be a side-effect of microbial C acquisition from which plants potentially can benefit.
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