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Antarctic lichens as a source of phosphate-solubilizing bacteria.

Averlane Vieira da SilvaAdeildo Junior de OliveiraIthallo Sathio Bessoni TanabeJosé Vieira SilvaTiago Wallace da Silva BarrosMayanne Karla da SilvaPaulo Henrique Barcellos FrançaJakson LeiteJair PutzkeRosalinda MontoneValéria Maia de OliveiraLuiz Henrique RosaAlysson Wagner Fernandes Duarte
Published in: Extremophiles : life under extreme conditions (2021)
In association with lichens, bacteria can play key roles in solubilizing sources of inorganic phosphates that are available in the environment. In this study, the potential of bacteria isolated from 15 Antarctic lichen samples for phosphate solubilization was investigated. From 124 bacteria tested, 66 (53%) were positive for phosphate solubilization in solid NBRIP medium, with a higher prevalence of Pseudomonas, followed by Caballeronia and Chryseobacterium. Most of the phosphate-solubilizing bacteria were isolated from Usnea auratiacoatra, followed by Caloplaca regalis and Xanthoria candelaria. Two isolates showed outstanding performance, Pseudomonas sp. 11.LB15 and Pseudomonas sp. 1.LB34, since they presented solubilization in the temperature range from 15.0 to 30.0 °C, and maximum quantification of soluble phosphate at 25.0 °C was 511.21 and 532.07 mg/L for Pseudomonas sp. 11.LB15 and Pseudomonas sp. 1.LB34, respectively. At 30.0 °C soluble phosphate yield was 639.43 and 518.95 mg/L with pH of 3.74 and 3.87 for Pseudomonas sp. 11.LB15 and Pseudomonas sp. 1.LB34, respectively. Fumaric and tartaric acids were released during the solubilization process. Finally, bacteria isolated from Antarctic lichens were shown to have the potential for phosphate solubilization, opening perspectives for future application in the agricultural sector and contributing to reduce the use of chemical fertilizers.
Keyphrases
  • biofilm formation
  • plant growth
  • climate change
  • risk assessment
  • risk factors
  • drinking water
  • human health
  • water soluble