Phospholipid biomarkers analysis as a tool for microbial community assessment on radionuclides contaminated territories

Y. Ruban, K. Shavanova, V. Illienko, K. Korepanova, D. Samofalova, S. Nikonov, N. Shpyrka, N. Nesterova, O. Pareniuk
Abstract

The presence of specific components in the environment can change the state of cenoses. The effect of ionizing radiation on plant communities, animals and humans have been well studied, while the effect on soil microflora has not been insufficiently studied. In this paper investigated the effect of radionuclide contamination on microflora of soil samples from the territory of PTLRW “Red Forest 1” (trench), “Red Forest 2” (outside the trench), “Cooling Pond” and “Zalissia”. Phospholipid fa y acid (PLFA) content was obtained by PLFA analysis. The highest level of total PLFA was observed in the territory of “Zalissia” which was 17.40 ± 10.59 μg / h. From the territory of PTLRW “Red Forest 1” (trench) and “Red Forest 2” (outside the trench) the level of total PLFA was 16.29 ± 3.43 μg / g and 16.40 ± 2.90 μg / h, respectively. The PLFA content of the “Cooling Pond” was significantly different from the “Red Forest” and “Zalissia”. The taxonomic groups assessment of the samples, a fungus, gram-positive and gram-negative bacteria content increased in PTLRW “Red Forest” relative to the point “Zalissia”

Keywords

Biomarkers; radionuclides; Chernobyl Exclusion Zone; PLFA; microorganisms

Suggested citation
Ruban, Y., Shavanova, K., Illienko, V., Korepanova, K., Samofalova, D., Nikonov, S., Shpyrka, N., Nesterova, N., & Pareniuk, O. (2020). Phospholipid biomarkers analysis as a tool for microbial community assessment on radionuclides contaminated territories. Biological Systems: Theory and Innovation, 11(3), 83-91. https://doi.org/10.31548/biologiya2020.03.009
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