INFLUENCE OF HYDROSTATIC PRESSURE AND TEMPERATURE ON THE METABOLIC ACTIVITY OF Alcanivorax marisrubri sp. nov. ISOLATED FROM THE RED SEA

  • Nathalia Catalina Delgadillo Ordoñez

Student thesis: Master's Thesis

Abstract

Hydrostatic pressure (HP) and low temperature are among the main parameters that affect the microbial activity in the deep sea. Especially in the event of an oil spill, the natural microbial degradation of hydrocarbons in the harsh conditions of the deep sea can be significantly impaired. In the Red Sea, the temperature in the deep (22°C) is much higher than in other oceans and may favor hydrocarbon degradation. Bacteria of the genus Alcanivorax, which are prominent and ubiquitous alkane degrading bacteria, have been extensively studied because of their high abundance in oil-contaminated shallow water, but have been shown to be absent in the deep sea because of their piezo-sensitivity. In the present thesis, the novel species Alcanivorax marisrubri isolated at 1000 m from the Southern Red Sea has been evaluated for its piezo-adaptation under different combinations of temperature, and HP. A. marisrubri showed a piezotolerance different from other Alcanivorax species. Furthermore, a positive compensation of growth inhibition was observed when the cells were exposed to mild HP (10 MPa) in combination with a relatively high temperature of 38°C. While growth was inhibited at lower temperatures (20 and 26°C) under mild-HP (5 and 10 MPa), the metabolic activity was triggered, possibly in response to cellular stress. This study showed that the growth and metabolic activity of A. marisrubri under HP depend on temperature, which exerts a positive compensation effect and may extend the growth of this bacterium to the depths of the Red Sea.
Date of AwardMar 2020
Original languageEnglish (US)
Awarding Institution
  • Biological, Environmental Science and Engineering
SupervisorDaniele Daffonchio (Supervisor)

Keywords

  • Deep sea
  • Hydrocarbons
  • Hydrostatic pressure
  • Alcanivorax
  • Temperature
  • Red Sea

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