Abstract
The improper use of antibiotics by humans may promote the dissemination of resistance in wildlife. The persistence and spread of acquired antibiotic resistance and human-associated bacteria in the environment, while representing a threat to wildlife, can also be exploited as a tool to monitor the extent of human impact, particularly on endangered animal species. Hence, we investigated both the associated enterobacterial species and the presence of acquired resistance traits in the cloacal microbiota of the critically endangered lesser Antillean iguana (Iguana delicatissima), by comparing two separate populations living in similar climatic conditions but exposed to different anthropic pressures. A combination of techniques, including direct plating, DNA sequencing and antimicrobial susceptibility testing allowed us to characterize the dominant enterobacterial populations, the antibiotic resistant strains and their profiles. A higher frequency of Escherichia coli was found in the samples from the more anthropized site, where multi-drug resistant strains were also isolated. These results confirm how human-associated bacteria as well as their antibiotic-resistance determinants may be transferred to wildlife, which, in turn, may act as a reservoir of antibiotic resistance.
Highlights
The impact of the emergence and spread of antibiotic resistance in bacteria is a widespread problem and a global concern [1]
The extensive and often improper use of antibiotics has promoted the selection and dissemination of resistance in bacterial communities exposed to human activities [2]
Wherever the proximity and/or promiscuity between man and wildlife is high, resistant bacterial isolates and/or resistance genetic determinants can circulate more in wild animals, antibiotic resistant bacteria are likely observed in anthropogenic biased sites
Summary
The impact of the emergence and spread of antibiotic resistance in bacteria is a widespread problem and a global concern [1]. The abundance and diversity of resistant bacteria and resistance genes in the environment (e.g., surface waters, soils and forests) is directly related to the impact of human activities [3]. Wherever the proximity and/or promiscuity between man and wildlife is high, resistant bacterial isolates and/or resistance genetic determinants can circulate more in wild animals, antibiotic resistant bacteria are likely observed in anthropogenic biased sites (for a review see Allen et al [6]). The diffusion of resistant strains and/or resistance determinants related to antibiotic abuses in both husbandry and agricultural practices, have persuaded researchers to look mainly at animals. Antibiotics 2021, 10, x FOR PEER REVIEW Antibiotics 2021, 10, 885 of 11 2 of 11 both husbandry and agricultural practices, have persuaded researchers to look mainly at aasntihmearlessearsvtohirefroersberavctoeirriafotrhabtapctoetreinatitahlalyt tphorteeantetinalhlyumtharneahteeanlthhu(em.ga.n, Whoeaoldthwa(er.dge.,tWal.o[o7d];Swyalvredsteetrael.t[a7l].; [S8y]l;vBesatuetrisetta-aTl.ru[8ji]l;loBaeuttaislt.a[-9T]r).ujiHlloowetevael.r,[9e]s)p. FFiigguurree22..DDiissttrriibbuuttiioonn ooff II.. ddeelliiccaattiissssiimmaa aaccrroossss tthhee LLeesssseerrAAnnttiilllleess ffrroommtthhee IIUUCCNN RReedd LLiisstt ooff TThhrreeaatt-eenneeddSSppeecciieess22001188((rreeddrraawwnn,,ffrroommvvaannddeennBBuurrggeettaal.l,.,22001188).).IIsslalannddsswwhheerreeththeessppeeccieiessooccccuurrssaarree sshhoowwnnininbblalacckk..TThheeggrreeyyccoolloouurriinnddicicaatetesseexxtitnincctitoionnininrreecceennt ttitmimees.s.SSt.t.BBaarrththisisiinnrreedd,,wwhhilieleCChhaanncceell IIssllaannddiissiinnggrreeeenn
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