Antibiotic resistance as a global problem in the context of biosecurity

Authors

DOI:

https://doi.org/10.31548/dopovidi1(101).2023.001

Keywords:

antibiotic resistance (antimicrobial resistance), resistome, human health, animal health, environment, "One Health" Concept, pollution

Abstract

Unreasonable (Unjustified), excessive and uncontrolled use of antibiotics in the field of healthcare and agriculture sectors has become the main reason for the formation of antibiotic resistance (AR) and the spread of antibiotic-resistant microorganisms in the environment.

Every year the growth of AR is recorded in the world, which has become a challenge for humanity. The WHO (World Health Organization) has recognized the problem of AR as one of the 10 global threats to public health facing humanity, which causes about 700,000 deaths per year in the world, and endangers the possibility of achieving the UN Sustainable Development Goals, in particular goal No. 3 " Ensuring healthy lifestyles and promoting well-being for everyone at all ages."

And it also causes(carries) significant socio-economic losses and unpredictable environmental consequences. The purpose of the research is to analyze modern data on the formation and spread of AR and modern approaches to solving the AR problem at the global level. By using a systematic approach, content analysis, bibliosemantics and scientometrics methods, analysis and generalization of data from modern scientific sources, statistics (statistical data) of leading international organizations involved(engaged) in monitoring AR and solving the problem of spreading AR were carried out.

This review demonstrates the relevance of the problem of resistance of microorganisms (problem of antimicrobial resistance) to antibiotics, the main mechanisms of the development and spread of AR, the global scope(scale) and consequences of AR, and aims to provide an insight into international initiatives to reduce AR, in particular the Concept of "One Health" (the "One Health" Concept) and the strategies that are currently being implemented.

Solving the AR problem requires a comprehensive (an integrated) approach, which includes mandatory systematic monitoring of the state of resistance of microorganisms to antibiotics, control of the use of antimicrobial drugs and educational programs to prevent the misuse of antibiotics, environmentally safe methods of waste disposal of medical, food and other industries that produce or use antibiotics, and their safe disposal, etc. In perspective (In the future), it is relevant to study the environmental consequences associated with the waste of(from) medical, food, and agricultural enterprises that produce or use antibiotics, and their safe disposal.

References

Prykhodko, M.M. (2012). Ekolohichni ryzyky zabrudnennia heosystem v rehioni ukrainskykh Karpat i prylehlykh terytorii [Environmental risks of geosystem pollution in the Ukrainian Carpathian region and adjacent territories]. Naukovyi visnyk Chernivetskoho universytetu – Scientific bulletin of the University of Chernivtsi, 614–615, 95–104 [in Ukrainian]. URL: http://nbuv.gov.ua/UJRN/Nvchnu_2012_614-615_24.

Kravtsiv, V.S. (2013). Karpatskyi rehion: aktualni problemy ta perspektyvy rozvytku. Ekolohichna bezpeka ta pryrodno-resursnyi potentsial: monohrafiia u 8 tomakh [The Carpathian region: current problems and development prospects. Ecological safety and natural resource potential: a monograph in 8 volumes]. Lviv, T. 1 [in Ukrainian]. URL: http://ird.gov.ua/irdp/p20130001.pdf.

Kopii, M.L., Honchar, V.M., Kopii, S.L., ta in. (2019). Fitomelioratyvna rol roslynnoho pokryvu u vidtvorenni devastovanykh zemel v mezhakh sirchanykh rozrobok Zakhidnoho Lisostepu: monohrafiia [Phytomeliorative role of plant cover in the reproduction of devastated lands within the limits of sulfur development of the Western Forest Steppe: monograph]. Rivne: NUVHP [in Ukrainian]. URL: http://ep3.nuwm.edu.ua/id/eprint/18251

Savchuk, L.V., Doskich, S.V. (2020). Revitalizatsiia terytorii vidpratsovanykh Yazivskoho ta Nemyrivskoho rodovyshch sirchanykh rud [Territory revitalization of the spent yazivsky and nemyrivsky sulfur ore deposits]. Vcheni zapysky TNU imeni V.I. Vernadskoho. Seriia: tekhnichni nauky Scientific notes of the Tavra National University named after V.I. Vernadskyi. Series: Technical sciences, 31(70), 4, 273–278 [in Ukrainian]. https://doi.org/10.32838/2663-5941/2020.4/41.

Cox, B., Innis, S., Kunz, N.C. et al. (2022). The mining industry as a net beneficiary of a global tax on carbon emissions. Commun Earth Environ, 3, 17 [in English]. https://doi.org/10.1038/s43247-022-00346-4.

Hodge, R.A., Ericsson, M., Lof, O. et al. (2022). The global mining industry: corporate profile, complexity, and change. Miner Econ, 35, 587–606 [in English]. https://doi.org/10.1007/s13563-022-00343-1.

Henckens, T. (2021). Scarce mineral resources: Extraction, consumption and limits of sustainability. Resources, Conservation and Recycling, 169, 105511 [in English]. URL: https://doi.org/10.1016/j.resconrec.2021.105511.

Mining industry worldwide – statistics & facts. URL: https://www.statista.com/topics/1143/mining/#topicOverview [in English].

Haddaway, N.R., Cooke, S.J., Lesser, P. et al. (2019). Evidence of the impacts of metal mining and the effectiveness of mining mitigation measures on social–ecological systems in Arctic and boreal regions: a systematic map protocol. Environ Evid, 8, 9 [in English]. URL: https://doi.org/10.1186/s13750-019-0152-8.

Rudko, G.I. (2006). Resursy heolohichnoho seredovyshcha ta ekolohichna bezpeka tekhnopryrodnykh system [Resources of the geological environment and ecological safety of techno-natural systems]. Kyiv [In Ukrainian].

Oliferchuk, V., Kendzora, N., Hotsii, N. еt al. (2023). Changes in the Structure of Soil Microscopic Fungi in the Territories of Yavoriv and Podorozhenie Sulfur Quarries. Ecological Engineering & Environmental Technology, 3, 120–134 [in English]. URL: https://sci.ldubgd.edu.ua/jspui/handle/123456789/11616.

Mudrak, O., Demyanyuk, O., & Mahdiichuk, A. (2022). Hirnycho-promyslovi landshafty Pravoberezhnoho Lisostepu yak potentsiini strukturni elementy rehionalnoi ekomerezhi [Mining and industrial landscapes of the right-bank forest-steppe as potential structural elements of the regional eco-network]. Ekolohichni nauky – Environmental sciences, 4(43), 149–153 [in Ukrainian]. doi.org/10.32846/2306-9716/2022.eco.4-43.24.

Kopii, M.L., Marutiak, S.B., Kopii, L.I. (2016). Analiz morfolohichnoi struktury ta khimichnoho skladu porushenykh gruntiv u mezhakh Novorozdilskoho DHKhP «Sirka» [Analysis of the morphological structure and chemical composition of disturbed soils within the boundaries of the Novorozdilsk DHHP “Sirka”]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 26(4), 212–219 [in Ukrainian]. doi.org/10.32846/2306-9716/2022.eco.4-43.24.

Zakon Ukrainy «Pro Osnovni zasady (stratehiiu) derzhavnoi ekolohichnoi polityky Ukrainy na period do 2030 roku» [Law of Ukraine. On the Key Principles (Strategy) of the State Environmental Policy of Ukraine for the Period till 2030]. URL: https://zakon.rada. gov.ua/laws/show/2697-19#Text [in Ukrainian].

Taras, U.M. (2013). Problemy rekultyvatsii sirchanoho kar’ieru v zoni diialnosti Yavorivskoho derzhavnoho hirnycho-khimichnoho pidpryiemstva «Sirka» [The revegetation problems of sulphuric pit during activity of the Yavoriv state mines-chemical enterprise «Sirka»]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 23(2), 154158 [in Ukrainian].

Taras, U.M., Marytjak, S.B. (2013). Doslidzhennia fizyko-khimichnoho stanu gruntu na devastovanykh zemliakh u zoni diialnosti Yavorivskoho derzhavnoho hirnycho-khimichnoho pidpryiemstva «Sirka» [Investigation of physico-chemical soil condition on devastated lands in activity zones of Yavoriv State Mining Chemical Plant “Sirka”]. Naukovyi visnyk NLTU Ukrainy – Scientific bulletin of UNFU, 23 (14), 5662 [in Ukrainian]. URL: https://cyberleninka.ru/article/n/problemi-rekultivatsiyi-sirchanogo-kareru-v-zoni-diyalnosti-yavorivskogo-derzhavnogo-girnicho-himichnogo-pidpriemsta-sirka.

Maryskevych, O.H., Shpakivska, I.M. (2001). Osoblyvosti formuvannia gruntovoho pokryvu na vidvalakh Rozdilskoho DHKhP “Sirka” [Peculiarities of the formation of soil cover on the dumps of the Rozdilsky DHHP “Sirka”]. Naukovi zapysky Derzhavnoho pryrodoznavchoho muzeiu – Scientific notes of the State Natural History Museum, 16, 147–152 [in Ukrainian]. URL: https://cyberleninka.ru/article/n/doslidzhennya-fiziko-himichnogo-stanu-gruntu-na-devastovanih-zemlyah-u-zoni-diyalnosti-yavorivskogo-derzhavnogo-girnicho-himichnogo.

Maryskevych, O.H., Shpakivska, I.M., Didukh, O.I. (2005). Formuvannia gruntiv u mezhakh tekhnohennoho landshaftu Yavorivskoho DHKhP “Sirka” [Formation of soils within the man-made landscape of the Yavorivsk DHHP “Sirka”]. Naukovyi visnyk Chernivetskoho un-tu. Seriia Biolohiia – Scientific bulletin of the University of Chernivtsi. Вiology series, 251, 175–185 [in Ukrainian].

Kopii, M.L., Oliferchuk, V.P. (2016). Mikolohichna struktura gruntu v mezhakh sformovanykh ekotopiv porushenykh landshaftiv Yavorivskoho sirchanoho kar’ieru [Mycological structure of the soil within the formed ecotopes of disturbed landscapes of the Yavoriv sulfur quarry]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 26(1), 174–181 [in Ukrainian]. URL: https://cyberleninka.ru/article/n/mikologichna-struktura-gruntu-v-mezhah-sformovanih-ekotopiv-porushenih-landshaftiv-yavorivskogo-sirchanogo-kareru.

Kopii, M.L., Oliferchuk, V.P., Kopii, L.I. (2017). Porivnialna kharakterystyka mikolohichnoi struktury tekhnozemiv sirchanykh kar’ieriv Lvivshchyny [Comparative characteristics of the mycological structure of technozems of sulfur quarries in Lviv Oblast]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 27(3), 99–104 [in Ukrainian]. URL: https://cyberleninka.ru/article/n/porivnyalna-harakteristika-mikologichnoyi-strukturi-tehnozemiv-sirchanih-kareriv-lvivschini.

Oliferchuk, V., Shukel, І. (2022). Struktura kompleksiv mikromitsetiv u ekotopakh sirchanykh kar’ieriv zakhidnoho rehionu Ukrainy [Тhe structure of micromycetes complexes in the ecotopes of sulfur quarries in the western region of Ukraine]. Zbalansovane pryrodokorystuvannia – Balanced nature management, 4, 129–140 [in Ukrainian].

Kopii, M.L. (2018). Vplyv suktsesiinykh protsesiv na vidtvorennia porushenykh zemel v mezhakh Yavorivskoho sirchanoho kar’ieru Lvivskoi oblasti [The influence of successional processes on the reproduction of disturbed lands within the Yavoriv sulfur quarry of Lviv region]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 28(8), 45–50 [in Ukrainian].

Nazarovets, U.R., Oliferchuk, V.P., Kopii, L.I., Kopii, M.L. (2017). Suktsesii fitotsenoziv u mezhakh Podorozhnenskoho sirchanoho kar’iera [Successions of phytocenoses within the Podorozhnensky Sulfur Quarry]. Ahroekolohichnyi zhurnal  Agroecological journal, 1, 121–127 [in Ukrainian].

Kopii, M.L., Kopii, L.I. (2016). Vplyv roslynnosti na pererozpodil orhanichnykh rechovyn ta khimichnykh elementiv u teznozemakh Yavorivskoho sirchanoho kar’ieru [The influence of vegetation on the redistribution of organic substances and chemical elements in technozems of the Yavorisk sulfur quarry]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 26.5, 194–204 [in Ukrainian].

Henyk, Ya.V. (2010). Revitalizatsiia gruntovoho pokryvu yak osnova vidnovlennia landshaftu [Soil revitalization as a basis for landscape restoration]. Naukovyi visnyk NLTU Ukrainy  Scientific bulletin of UNFU, 20.13, 93–98 [in Ukrainian].

Nazaruk, M.M. (2018). Pryrodni umovy ta pryrodni resursy Lvivshchyny: monohrafiia [Natural conditions and natural resources of Lviv region: monograph]. Lviv: Vydavnytstvo Staroho Leva [in Ukrainian].

Pidkova, O.M., Kit, M.H. (2010). Litohenno-henetychna zumovlenist formuvannia gruntovoho pokryvu Roztochchia: monohrafiia [Lithogenic and genetic conditions of soil cover formation in Roztochchi: monograph]. Lviv: Vydavnychyi tsentr LNU imeni Ivana Franka [in Ukrainian].

Lutsyshyn, O., Haskevych, V. (2016). Grunty Nadsianskoi rivnyny: monohrafiia [Soils of the Nadsyan plain: monograph]. Lviv: LNU imeni Ivana Franka [in Ukrainian].

Pavliuk, N.M., Haskevych, V.H. (2011). Siri lisovi grunty Opillia [Gray forest soils of Opillia]. Lviv: LNU imeni Ivana Franka [in Ukrainian].

Romaniv, P.V., Pozniak, S.P. (2010). Heohrafo-henetychni osoblyvosti fizychnoho stanu gruntiv Peredkarpattia [Geographical and genetic features of the physical condition of the soils of Precarpathia]. Lviv: Vydavnychyi tsentr LNU imeni Ivana Franka [in Ukrainian].

Nakaz MOZ Ukrainy 14.07.2020 № 1595. Pro zatverdzhennia Hihiienichnykh rehlamentiv dopustymoho vmistu khimichnykh rechovyn u grunti [Order of the Ministry of Health of Ukraine dated 14.07.2020 No. 1595. On the approval of the Hygienic Regulations on the permissible content of chemical substances in the soil]. URL: https://zakon.rada.gov.ua/laws/show/z0722-20#Text [in Ukrainian].

DSTU ISO 10390:2007 (2012). Yakist gruntu. Vyznachannia рН [Soil quality. Determination of pH]. Kyiv: Derzhspozhyvstandart Ukrainy [in Ukrainian].

DSTU 4289:2004 (2005). Yakist gruntu. Metody vyznachennia orhanichnoi rechovyny [Soil quality. Methods for determination of organic matter]. Kyiv: Derzhstandart Ukrainy [in Ukrainian].

DSTU 7945:2015 (2016). Yakist gruntu. Vyznachennia ioniv kaltsiiu i mahniiu u vodnii vytiazhtsi [Soil quality. Determination of calcium and magnesium ions in aqueous extract]. Kyiv: DP “UkrNDNTs” [in Ukrainian]. 35. DSTU 4729:2007 (2008). Yakist gruntu. Vyznachennia nitratnoho i amoniinoho azotu v modyfikatsii NNTs IHA im. O.N. Sokolovskoho [Soil quality. Determination of total nitrogen in the modification of the NSC IHA named after O.N. Sokolovskyi]. Kyiv: Derzhspozhyvstandart Ukrainy [in Ukrainian].

DSTU 4115-2002 (2002). Grunty. Vyznachennia rukhomykh form fosforu i kaliiu za modyfikovanym metodom Chyrykova [Soils. Determination of mobile compounds of phosphorus and potassium by Chiricov modified method]. Kyiv: Derzhspozhyvstandart Ukrainy [in Ukrainian].

Bovt, V.D., Horokhovskyi, Ye.Yu., Zolotarenko-Horbunova, L.M. (2011). Osnovy statystychnoho analizu v ekolohii dlia biolohichnoho fakultetu spetsialnosti «Ekolohiia ta okhorona navkolyshnoho seredovyshcha». Navchalno-metodychnyi posibnyk [Basics of statistical analysis in ecology for the biological faculty of the specialty “Ecology and environmental protection”. Educational and methodological manual]. Zaporizhzhia: ZNU [in Ukrainian].

Hirnycho-khimichna promyslovist Lvivshchyny. Istoriia. Sohodennia. Maibutnie. Ekolohiia (2002). [Mining and chemical industry of Lviv region. History. The present day. Future. Ecology]. Lviv: VAT “Hikhirprom” [in Ukrainian].

Yavorivske derzhavne hirnycho-khimichne pidpryiemstvo “Sirka” (2001). [Yavoriv State Mining and Chemical Enterprise “Sirka”]. Novoiavorivsk [in Ukrainian].

Taras, U.M. (2016). Vidnovlennia roslynnykh uhrupovan na devastovanykh zemliakh Yavorivskoho sirchanoho kar’ieru: avtoref. dys. na zdob. nauk. stupenia kand. silhosp. nauk [Restoration of plant communities on the devastated lands of the Yavoriv sulfur quarry: autoref. thesis on of science candidate degree agricultural sciences]. Lviv [in Ukrainian].

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Published

2023-02-28

Issue

No. 1/101 (2023)

Section

Biology, biotechnology, ecology

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