Solubilization of rock phosphate by Azotobacter spp

NBU Journal of Plant Sciences Pub Date : 1900-01-01 DOI:10.55734/nbujps.2010.v04i01.012

A. Mukhopadhyay, Ramhari Pal, N. Mandal

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Abstract

To find out a potent phosphate solubilizing strain of diazotrophs, fifteen Azotobacter strains were isolated from local sources. They have been tested for the ability to solubilize rock phosphate in vitro and production of acid in the medium. Almost all the strains solubilized rock phosphate which ranged up to 45.5%. Azotobacter sp. R12 was found to be a potent one, which solubilized 30 to 46% phosphate from different rock phosphates. Almost maximum solubilization of P and acid production was achieved at four days of growth of the organism. The strain produced ascorbic acid in the culture medium, the primary cause of rock phosphate solubilization. Addition of (NH4)2S04 in the culture medium reduced the solubilization of phosphate with increasing concentration beyond 0.25 mg/ml for Jordon rock phosphate. Increasing concentration of CaCl2 and CaCO3 also reduced the P solubilization from Jordon rock phosphate by the strain. Kinetics of solubilization and acid production showed a linear relationship till the 5th day of incubation, then P level becomes static. Adding EDTA at 5 mg/ml as chelating agent of calcium ions to 5 days old culture increased the P solubilization to 81%. Increasing EDTA concentration in 3 days old culture showed linear relationship between concentration of EDTA and P solubilization.

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固氮菌对磷矿石的增溶作用

为寻找一株有效的重氮营养菌增磷菌，从当地分离了15株固氮菌。他们已经测试了在体外溶解磷酸盐岩和在培养基中产生酸的能力。几乎所有菌株都能溶磷矿，溶磷矿率达45.5%。固氮菌sp. R12是一种较强的固氮菌，可溶解不同岩石磷酸盐中30% ~ 46%的磷酸盐。几乎最大的P和酸的增溶作用是在有机体生长的第4天实现的。该菌株在培养基中产生抗坏血酸，这是导致磷矿溶解的主要原因。在培养液中加入(NH4)2S04可降低磷酸盐的增溶作用，当浓度超过0.25 mg/ml时，磷酸盐的增溶作用会增加。CaCl2和CaCO3浓度的增加也降低了菌株对约敦磷矿P的增溶作用。在培养第5天之前，增溶动力学和产酸动力学基本呈线性关系，之后P水平趋于稳定。添加5 mg/ml EDTA作为钙离子螯合剂，5 d龄培养中P的增溶率达到81%。培养3 d后EDTA浓度的增加与P的增溶呈线性关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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NBU Journal of Plant Sciences

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