Bioenergetic Investigation of Action of Lithium to Tetrahymena thermophila bF5 by Microcalorimetry

Abstract: Microcalorimetry was employed to investigate the action of Li(I) to aquatic ecosystem from the point view of bioenergetics. Tetrahymena thermophila BF5 was chosen as the model organism. The power-time curves of T. thermophila BF5 growth metabolism in the absence and presence of Li(I) were obtained. The corresponding thermokinetic parameters were derived. The generation time was calculated as 592.3 min, which was consistent with the biomass values. Low concentration of Li(I) (1-20 mmol l-1) stimulated the growt… Show more

“…Lithium materials are important in the ceramics and glass industries, aluminum production, pharmaceuticals, batteries, lithium powered pacemaker and in nuclear reactor coolant [8]. However, the increased use of Li (1) has not prompted many studies of the possible effect of Li (1) to the ecosystem [8][9][10].…”

Effect of Lithium on Growth Process of Environmental Microorganism by Microcalorimetry and SEM

“…Lithium materials are important in the ceramics and glass industries, aluminum production, pharmaceuticals, batteries, lithium powered pacemaker and in nuclear reactor coolant [8]. However, the increased use of Li (1) has not prompted many studies of the possible effect of Li (1) to the ecosystem [8][9][10].…”

Effect of Lithium on Growth Process of Environmental Microorganism by Microcalorimetry and SEM

Importance of protozoa Tetrahymena in toxicological studies: A review