E3S Web of Conferences (Jan 2020)
Biotoxicity of heavy metal salts to Bacillus subtilis and their sorption properties
Abstract
The prospect of the use of microorganisms in medical and veterinary practice at the present stage of scientific development has high potential based on natural mechanisms of protection and adaptation of organisms to the effects of adverse factors. The biological adaptation potential of microorganisms to the effects of heavy metals found its practical application in studies of soil and water bioremediation. Based on the above, we set the aim to assess inhibitory characteristics of various heavy metal compounds, the extent of their impact on the growth of populations of probiotic strains Bacillus subtilis, and to study biosorption criteria of the strains. To achieve this aim, we used isolated cultures of probiotic strains B. subtilis 534 and B. subtilis 10641 extracted from drugs Sporobacterin and Vetom 1.1, respectively. Various chemical compounds of iron, copper, zinc, cadmium, and lead with a various anion component were used as growth inhibitors in the study. The criterion for the selection of compounds was a high level of their dissociation in water solutions. Data presented in this work experimentally confirm the capability of using probiotic strains in ecosystems of biological origin. A comparison of two strains of Bacillus subtilis showed a high level of resistance to xenobiotic elements with strain differences in the studied microorganism. The B. subtilis 534 strain revealed a higher level of resistance to compounds with a direct correlation between the inhibitory characteristics of the elements and the level of element sorption from the nutrient substrate.
