Determination of the Microorganisms’ Resistance to Antibiotics in the Bacterioplankton Community in the Akmola Region Lakes

Akbayeva, Lyailya; Bakeshova, Zhumabike; Mamytova, Nurgul; Yelikbayev, Bakhytzhan; Abzhalelov, Akhan; Tazitdinova, Rumiya; Beisenova, Raikhan

doi:10.12911/22998993/187024

Artykuł - szczegóły

Tytuł artykułu

Determination of the Microorganisms’ Resistance to Antibiotics in the Bacterioplankton Community in the Akmola Region Lakes

Autorzy

Akbayeva Lyailya , Bakeshova Zhumabike , Mamytova Nurgul , Yelikbayev Bakhytzhan , Abzhalelov Akhan , Tazitdinova Rumiya , Beisenova Raikhan

Treść / Zawartość

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Identyfikatory

DOI

10.12911/22998993/187024

Warianty tytułu

Języki publikacji

Abstrakty

The purpose of the work was to conduct biotesting for the presence of antibiotics in several lakes of the Akmola region, located in the zone of possible ingress of antimicrobial drugs into them. The adopted research method was the modified disk diffusion method, employed to determine the microorganisms’ sensitivity to the used antibiotics. As a result of the study, sensitivity to antibiotics remained in the main control lakes. The antibiotics that have not been found to be resistant to microorganisms in lakes included: enronite, furagin, cefuroxime, cefoperazone, and amikacin. The most common resistance of microorganisms 90–100% was in such antibiotics as benzylpenicillin, kanamycin, streptomycin, tylosin, trimethoprim/sulfamethoxazole, metronidazole, amikacin, and spectinomycin.

Słowa kluczowe

xenobiotics pollutants bacterioplankton antibiotics resistance microorganisms

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2024

Tom

Vol. 25, nr 6

Strony

99--108

Opis fizyczny

Bibliogr. 21 poz., rys., tab.

Twórcy

autor

Akbayeva Lyailya

Environmental Management and Engineering Department, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, 2 Satpayev Str, Astana, Kazakhstan

autor

Bakeshova Zhumabike

Environmental Management and Engineering Department, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, 2 Satpayev Str, Astana, Kazakhstan

autor

Mamytova Nurgul

Department of Chemistry, Chemical Technology and Ecology, Kazakh University of Technology and Business, Korgalzhyn Str., Astana, Kazakhstan

autor

Yelikbayev Bakhytzhan

Chemical Processes and Industrial Ecology Department, Satpayev University, Almaty, Republic of Kazakhstan

autor

Abzhalelov Akhan

Environmental Management and Engineering Department, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, 2 Satpayev Str, Astana, Kazakhstan

autor

Tazitdinova Rumiya

Environmental Management and Engineering Department, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, 2 Satpayev Str, Astana, Kazakhstan

autor

Beisenova Raikhan

raihan_b_r@mail.ru

Environmental Management and Engineering Department, Faculty of Natural Sciences, L.N. Gumilyov Eurasian National University, 2 Satpayev Str, Astana, Kazakhstan
Insitute of Environmental Engineering, Peoples’ Friendship University of Russia, Moscow 117198, Russia
High School of Ecology, Yugra State University, Khanty Mansiysk 628000, Russia

https://orcid.org/0000-0003-0913-9503

Bibliografia

1. Aitimbetova A., Batyrkhanova A., Nurtayeva A., Isayeva R., Bektureyeva G. 2023. Environmental Assessment of Solid Waste Pollution of Urban Areas (on the example of Shymkent, Republic of Kazakhstan), Evergreen, 10(3), 1209–1217.
2. Akbayeva L. 2014. Seasonal dynamics of phytoplankton and bacterial plankton characteristics in esil river. Biosciences Biotechnology Research Asia, 11(3), 1087.
3. Akbayeva, L.M. 2020. Studying the self-cleaning ability of water bodies and watercounts of arshalyn district of akmola region. Journal of Environmental Management and Tourism, 11(5), 1095.
4. Aubakirova B.N., Beisenova R., Boxall A. 2017. Prioritisation of pharmaceuticals based on risks to aquatic environments in Kazakhstan”, Integrated Environmental Assessment and Management, 13(5), 832–839.
5. Aubakirova B.N. 2017. The effect of pharmaceutical ingredients on representatives of aquatic biota, Ph.D. Thesis, L.N. Gumilyov Eurasian national university, Astana.
6. Azbantayeva M.N., Sagynbayeva A.B., Sagatbayev Y.N. and Pashkov S.V. 2022. Determination of the tourist position of lakes of Western and Central Kazakhstan by space survey. GeoJournal of Tourism and Geosites, 45(4), 1625–1632.
7. Balcioglu I.A., Otker M. 2003. Treatment of pharmaceutical wastewater containing antibiotics by O3 and O3/H2O2 processes. Chemosphere, 50(1), 85–95.
8. Beisenova R., Tulegenova S. et al. 2022. The problem of water resources pollution with active pharmaceutical substances and the possibility of its solving. Journal of Environmental Management and Tourism, 13(5), 1353–1360.
9. Beisenova R., Tulegenova S., et al. 2020. Purification by ketoconazole adsorption from sewage, Systematic Reviews in Pharmacy, 11(6), 550–554.
10. Bereznyak E.A., Trishina A.V., Simonova I.R., Verkina L.M., Poleeva М.V. 2018. Prevalence and antibiotic resistance of opportunistic pathogenic microorganisms in water reservoirs of Rostov-onDon city. Zdorov’e Naselenija I Sreda Obitanija, 2, 41–43.
11. Mamytova N.S. 2021. Investigation of the regularities of self-purification of surface waters by hydrobionts. Ph.D. Thesis, L.N. Gumilyov Eurasian national university.
12. Kenneth M.J., Suprokash K., Hsu G.-J., Chen J.-S., Hsu B.-M. 2023. A review on the effects of discharging conventionally treated livestock waste to the environmental resistome. Environmental Pollution, 338. DOI: 10.1016/j.envpol.2023.122643.
13. ST.RK 3468-2019. 2019. Methods of sanitary and microbiological analysis of water in surface water bodies. Official publication. Committee of Technical Regulation and Metrology Ministry of Trade and Integration of the Republic of Kazakhstan. https://online. zakon.kz/Document/?doc_id=34735050&pos=3;106#pos=3;-106 (accessed on 9 February 2023).
14. ST RK 3643-2020. 2020. Antibacterial drugs. Determination of the sensitivity of microorganisms https://online.zakon.kz/Document/?doc_id=37682551&pos=3;106#pos=3;-106 (accessed on 9 February 2023).
15. Sabily L., Zhukova V. 2020. Effective technology 0f pharmaceutical enterprises wastewater local treatment from antibiotics. Biotechnologia Acta, 13(3), 81–88.
16. Subbiah, M., Mitchell, S.M., Ullman, J.L. and Call, D.R. 2011. β-Lactams and florfenicol antibiotics remain bioactive in soils while ciprofloxacin, neomycin, and tetracycline are neutralized. Applied and Environmental Microbiology, 77(20), 7255–7260.
17. United Nations Environment Programme 2017. Antimicrobial resistanse: a study of environmental aspects,12–22 https://wedocs.unep.org › bitstream › handle (accessed on 9 February 2023).
18. Vaz-Moreira I., Nunes O.C., Manaia C.M. 2014. Bacterial diversity and antibiotic resistance in water habitats: searching the links with the human microbiome, FEMS Microbiology Reviews, 38, 761–778.
19. Wilkinson J.L., Boxall, A.B.A. 2022. Pharmaceutical pollution of the world’s rivers, Proceedings of the National Academy of Sciences of the United States of America, 119(8). DOI 10.1073/ pnas.2113947119.
20. Zhuravljov P.V., Panasovets O.P., Aleshnja V.V., Kazachok I.P., Chernogorova T.N., Derevyakina Ye.I. 2015. Antibiotic resistance of bacteria isolated from open water bodies. Zdorov’e naselenija i sreda obitanija, 5, 24–26.
21. Yelkenova B., Beisenova R., Tazitdinova R., Rakhymzhan Zh., Karipbaeva, N. 2023. Accumulation of heavy metals in the needles of scots pine of the semipalatinsk pre-irtysh region and burabay national park. Evergreen, 10(3), 1231–1241.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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