International Journal of Bioresource Science
  • Year: 2017
  • Volume: 4
  • Issue: 2

Phosphorus Solubilizing Bacteria from Tea Soils and their Phosphate Solubilizing Abilities

  • Author:
  • Parimal Panda1, Ashok Choudhury1, Somsubhra Chakraborty2, Deb Prasad Ray3,, Shovik Deb1, Partha Sarathi Patra1, Bisweswar Mahato4, Bappa Paramanik5, Anil Kumar Singh6, Rajesh Kumar Chauhan7
  • Total Page Count: 13
  • Page Number: 113 to 125

1Uttar Banga Krishi Viswavidyalaya, Cooch Behar, India

2Agricultural and Food Engineering Department, IIT Kharagpur, Kharagpur, India

3ICAR-NIRJAFT, 12, Regent Park, Kolkata, India

4Kalyan Krishi Vigan Kendra, Purulia, India

5Dakshin Dinajpur Krishi Vigan Kendra, Dakshin Dinajpur, India

6Darjeeling Tea Research and development Centre, Kurseong, Darjeeling, India

7Directorate of Research, Tea Board, 14 BTM Sarani, Kolkata, India

*Corresponding author: drdebprasadray@gmail.com

Online published on 31 March, 2018.

Abstract

The capability of phosphate solubilizing bacteria (PSB) to mineralize phosphate to a plant accessible form is an important way to increase plant yield. In this study, isolation, screening and characterization of 11 strains PSB from tea rhizospheric soil of India were carried out. Mineral P solubilization (MPS) activities of all isolates were evaluated on bacterial growth medium supplemented with four inorganic and five organic P sources. Besides, molecular identification of 11 isolates was executed by 16S rDNA sequencing. While nine isolates belonged to genus Burkholderia, only two belonged to Bacillus. MPS activity of all the strains was associated with a release of organic acids and a drop in the pH of the growth medium. The inverse relationship observed between the pH and soluble-P concentration indicated that organic acid production by these PSB strains plays a significant role in the acidification of the medium facilitating the P solubilization. The results also highlighted the synergistic effect of using PSB strains in combination with rock phosphate. Identification and characterization of potential soil PSB for the effective tea growth expand the range of phosphate solubilizers available for field application of tea crop.

Keywords

Mineral P solubilization, phosphate solubilizing bacteria, rhizosphere, tea