A barophilic response by two hyperthermophilic, hydrothermal vent Archaea: An upward shift in the optimal temperature and acceleration of growth rate at supra-optimal temperatures by elevated pressure

Abstract

The influence of elevated hydrostatic pressure on the growth rates of two hyperthermophilic Archaea isolated from hydrothermal vent environments (strains ES1 and ES4) was investigated over their entire temperature range for growth. Thermococcus celer, a shallow marine hyperthermophile was included in the study for comparative purposes. For one strain (ES4), the pressure at the site of collection (22 MPa) caused an upward shift in the optimal growth temperature of about 6°C compared to growth at 1 MPa. Although the optimal temperature for ES1 was unaffected by 22 MPa, elevated pressure stimulated the growth rate at supra-optimal temperatures. The temperature range for growth for both organisms was extended upward 2°C at 22 MPa pressure. For both strains 22 MPa had little effect on growth rates at sub-optimal temperatures. Growth was observed at pressures as high as 89 MPa for ES1 and 67 MPa for ES4, but with these higher pressures the temperature range for growth was narrowed, and the optimal temperature was shifted downward. Growth of Thermococcus celer was slightly stimulated by 22 MPa at its reported optimal temperature of 88°C, but was inhibited by higher pressure.