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“Microbiological methods for studying the sanitary and hygienic condition of environmental objects” - course 35,000 rubles. from MSU, training 4 weeks. (1 month), Date: December 5, 2023.
Miscellaneous / / December 08, 2023
Soil Department of Moscow State University, com. 49
Graduated from the Faculty of Soil Science of Moscow State University named after M.V. Lomonosov in 2014. In 2019, he defended his PhD thesis on the topic “The viability of natural microbial communities under conditions of modeling the parameters of alien soils and outer space.” Area of scientific interests: astrobiology, extreme tolerance, ecology of microorganisms in extreme habitats, radioresistance, stability of biomarkers in extraterrestrial conditions. Author of more than 80 scientific publications, including 18 articles in journals indexed by WoS/Scopus.
Main publications:
V. Cheptsov, A. Belov, O. Soloveva, E. Vorobyova, G. Osipov, N. Manucharova, and M. Gorlenko. Survival and growth of soil microbial communities under influence of sodium perchlorates. International Journal of Astrobiology, p. 1–12, 2020. DOI: 10.1017/S1473550420000312
A. A. Belov, V. S. Cheptsov, N. A. Manucharova, and Z. S. Ezhelev. Bacterial communities of Novaya Zemlya archipelago ice and permafrost. Geosciences, 10(2):1–27, 2020. DOI: 10.3390/geosciences10020067
V. S. Cheptsov, S. I. Tsypina, N. V. Minaev, V. I. Yusupov, and B. N. Chichkov. New microorganism isolation techniques with emphasis on laser printing. International Journal of Bioprinting, 5(1):165, 2019. DOI: 10.18063/ijb.v5i1.165
A. Pavlov, V. Cheptsov, D. Tsurkov, V. Lomasov, D. Frolov, and G. Vasiliev. Survival of radioresistant bacteria on Europa’s surface after pulse ejection of subsurface ocean water. Geosciences, 9(1):9, 2019. DOI: 10.3390/geosciences9010009
M. V. Gorlenko, E. A. Chutko, E. S. Churbanova, N. V. Minaev, K. I. Kachesov, L. V. Lysak, S. A. Evlashin, V. S. Cheptsov, A. O. Rybaltovskiy, V. I. Yusupov, V. S. Zhigarkov, G. A. Davydova, B. N. Chichkov, and V. N. Bagratashvili. Laser microsampling of soil microbial community. Journal of Biological Engineering, 12:27, 2018. DOI: 10.1186/s13036-018-0117-4
V. Cheptsov, E. Vorobyova, A. Belov, A. Pavlov, D. Tsurkov, V. Lomasov, and S. Bulat. Survivability of soil and permafrost microbial communities after irradiation with accelerated electrons under simulated Martian and open space conditions. Geosciences, 8(8):298, 2018. DOI: 10.3390/geosciences8080298
V. S. Cheptsov, E. A. Vorobyova, N. A. Manucharova, M. V. Gorlenko, A. K. Pavlov, M. A. Vdovina, V. N. Lomasov, and S. A. Bulat. 100 kg gamma-affected microbial communities within the ancient arctic permafrost under simulated Martian conditions. Extremophiles, 21(6):1057–1067, 2017. DOI: 10.1007/s00792-017-0966-7
1. Introduction. Objects of sanitary and hygienic research.
2. Techniques and methods for selecting and preparing samples for microbiological studies.
2.1 Sampling for microbiological studies
2.2 Transportation and storage of samples, preparation for analysis.
3. Preparation of the workplace, utensils and consumables for analysis.
3.1 Basic methods of disinfection and sterilization of utensils, premises, personnel
3.2 Differential diagnostic media for analyzing the sanitary and hygienic state of the environment
4. The main indicator organisms used in assessing the sanitary and hygienic state of the environment, and methods for their isolation and identification.
4.1 Microorganisms of group A (inhabitants of the intestines of humans and animals). Methods for isolation from natural and anthropogenically transformed environments, identification and quantification.
4.2 Microorganisms of group B (inhabitants of the upper respiratory tract and nasopharynx). Methods of isolation from natural and anthropogenically transformed environments, identification and quantitative assessment.
4.3 Microorganisms of group C (saprotrophic microorganisms). Methods for isolation from natural and anthropogenically transformed environments, identification and quantification.
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