Organic phosphorus utilization by wheat plants under sterile conditions

An experiment was set up to make a critical assessment of the role of organic P (Po) in soil solution in the nutrition of wheat plants under sterile conditions. Three concentration gradients of Po (17.08, 27.31 and 37.61 muM l(-1)) were created in a sterilized Oxisol by fertilization with a soil solution prepared by a dry freezing technique and containing antibiotics to minimize microbial growth. Due to the high P fixing capacity of the Oxisol and high buffering capacity of inorganic P (Pi), as compared to Po, a negligible change in Pi concentration occurred, due to fertilization after equilibrium in soil solution. Phosphorus supply had a positive effect on dry matter and P concentration of the plants. Acid phosphatase secretion by plant roots was 5-11 times higher in Po treatments than in the respective Pi treatments. No alkaline phosphatase activity was detected, confirming the absence of microbial activity in our system. Net P inflow into plants was significantly higher in the Pi + Po treatments at all three Po concentrations than in the respective Pi (control) treatment, providing evidence for the role of Po in the P nutrition of plants. It was hypothesized that plants secrete phosphatases in response to the presence of Po in soil solution and Po might be responsible for the increase in P influx to wheat plants.