Reductive soil disinfestation(RSD)is commonly employed for soil remediation in greenhouse cultivation.However,its influence on antibiotic resistance genes(ARGs)in soil remains uncertain.This study investigated the dyn...Reductive soil disinfestation(RSD)is commonly employed for soil remediation in greenhouse cultivation.However,its influence on antibiotic resistance genes(ARGs)in soil remains uncertain.This study investigated the dynamic changes in soil communities,potential bacterial pathogens,and ARG profiles under various organicmaterial treatments during RSD,including distillers’grains,potato peel,peanut vine,and peanut vine combined with charcoal.Results revealed that applying diverse organic materials in RSD significantly altered bacterial community composition and diminished the relative abundance of potential bacterial pathogens(P<0.05).The relative abundance of high-risk ARGs decreased by 10.7%-30.6%after RSD treatments,the main decreased ARG subtypeswere AAC(3)_Via,dfrA1,ErmB,lnuB,aadA.Actinobacteria was the primary host of ARGs and was suppressed by RSD.Soil physicochemical properties,such as total nitrogen,soil pH,total carbon,were crucial factors affecting ARG profiles.Our findings demonstrated that RSD treatment inhibited pathogenic bacteria and could be an option for reducing high-risk ARG proliferation in soil.展开更多
The effects of disinfectants and plasmid-based antibiotic resistance genes(ARGs)on the growth of microorganisms and the plasmid-mediated transfer of ARGs in the water and biofilm of the drinkingwater distribution syst...The effects of disinfectants and plasmid-based antibiotic resistance genes(ARGs)on the growth of microorganisms and the plasmid-mediated transfer of ARGs in the water and biofilm of the drinkingwater distribution system under simulated conditionswere explored.The heterotrophic plate count of the water in reactors with 0.1 mg/L NaClO and NH_(2)Cl was higher than in the control groups.Therewas no similar phenomenon in biofilm.In thewater of reactors containing NaClO,the aphA and bla geneswere lower than in the antibiotic resistant bacteria group,while both genes were higher in the water of reactors with NH_(2)Cl than in the control group.Chloramine may promote the transfer of ARGs in the water phase.Both genes in the biofilm of the reactors containing chlorine were lower than the control group.Correlation analysis between ARGs and water quality parameters revealed that the copy numbers of the aphA gene were significantly positively correlated with the copy numbers of the bla gene in water and significantly negatively correlated in biofilm(p<0.05).The results of the sequencing assay showed that bacteria in the biofilm,in the presence of disinfectant,were primarily Gram-negative.1.0 mg/L chlorine decreased the diversity of the community in the biofilm.The relative abundance of some bacteria that may undergo transfer increased in the biofilm of the reactor containing 0.1 mg/L chlorine.展开更多
Microalgae-bacteria system is an emerging alternative for sustainable wastewater treatment.Exploring the structure and diversity of microbial community in microalgae-bacteria system under sulfadiazine stress can contr...Microalgae-bacteria system is an emerging alternative for sustainable wastewater treatment.Exploring the structure and diversity of microbial community in microalgae-bacteria system under sulfadiazine stress can contribute to the understanding of the sulfadiazine behavior in environments.Furthermore,as important carriers of antibiotic resistance genes(ARGs),microalgae can influence the profiles of ARGs either directly or indirectly through the secretion of metabolites.However,the effects of sulfadiazine on ARGs dissemination of microalgae-bacteria systems remain underreported.Herein,the impacts of sulfadiazine(1 mg/L)on the structural diversity and metabolic activity of microorganisms were examined in microalgae-bacteria systems.Results showed thatmicroalgae-bacteria system could remove NH_(4)^(+)-N better(about 72.3%)than activated sludge system,and hydrolysis was the first step in sulfadiazine degradation.A high level of intI1(5.7×10^(4) copies/mL)was detected in the initial media of the microalgae-bacteria system.Microalgae could hamper the rate of horizontal gene transfer activation.Compared with activated sludge system,the abundance of sul genes(sul1,sul2,sul3,and sulA)was significantly lowered after treating with microalgae-bacteria system.Additionally,the number of proteins and the sum of polysaccharides in the extracellular polymeric substances of the activated sludge system were lower than those of themicroalgae-bacteria system.Microalgae can altermicrobial communities.The genus Rozellomycota predominated all samples.Fungi with relatively high abundance increased in the microalgae-bacteria system,including Dipodascaceae,Rhodotorula,and Geotrichum.These results offer valuable insights into the application processes involving microalgae-bacteria system.展开更多
The objective of this study is to quantitatively reveal the main genetic carrier of antibiotic resistance genes(ARGs)for blocking their environmental dissemination.The distribution of ARGs in chromosomes,plasmids,and ...The objective of this study is to quantitatively reveal the main genetic carrier of antibiotic resistance genes(ARGs)for blocking their environmental dissemination.The distribution of ARGs in chromosomes,plasmids,and phages for understanding their respective contributions to the development of antimicrobial resistance in aerobic biofilm consortium under increasing stresses of oxytetracycline,streptomycin,and tigecyclinewere revealed based on metagenomics analysis.Results showed that the plasmids harbored 49.2%-83.9%of resistomes,which was higher(p<0.001)than chromosomes(2.0%-35.6%),and no ARGs were detected in phage contigs under the strict alignment standard of over 80%identity used in this study.Plasmids and chromosomes tended to encode different types of ARGs,whose abundances all increased with the hike of antibiotic concentrations,and the variety of ARGs encoded by plasmids(14 types and 64 subtypes)was higher than that(11 types and 27 subtypes)of chromosomes.The dosing of the three antibiotics facilitated the transposition and recombination of ARGs on plasmids,mediated by transposable and integrable transfer elements,which increased the co-occurrence of associated and unassociated ARGs.The results quantitatively proved that plasmids dominate the proliferation of ARGs in aerobic biofilm driven by antibiotic selection,which should be a key target for blocking ARG dissemination.展开更多
Objective:To investigate the pattern of antibiotic resistance and biofilm production capabilities of clinical Acinetobacter baumannii(A.baumannii)isolates in this study.Methods:A.baumannii isolates were collected from...Objective:To investigate the pattern of antibiotic resistance and biofilm production capabilities of clinical Acinetobacter baumannii(A.baumannii)isolates in this study.Methods:A.baumannii isolates were collected from Tehran Imam Khomeini Hospital in this cross-sectional study,and the minimum inhibitory concentrations for 16 antibiotics were determined using Vitek2®systems.All isolates were analyzed for biofilm production,then presence of biofilm-associated genes,and class Ⅰ and Ⅱ integron genes.Results:60 non-replicate A.baumannii isolates were included in this study.The resistance rates reached 100%for aztreonam,cefepime,ceftazidime,ciprofloxacin,piperacillin-tazobactam,piperacillin,ticarcillin,and trimethoprim-sulfamethoxazole.A.baumannii isolates were most sensitive to colistin and rifampicin being the most effective treatments.Multi-drug resistant and extensively drug-resistant isolates accounted for 83.3%and 16.7%,respectively.Of the isolates,91.6%formed biofilms,categorized as 10%strong,31.6%moderate,and 50%weak.No correlation was found between antibiotic resistance and biofilm formation.The genes csuE,abaI,and ompA were prevalent,but their distribution was similar across biofilm categories.A relationship between Int1 and biofilm production was noted.Conclusions:The high rates of antibiotic resistance and biofilm formation,alongside the presence of integrons including class Ⅰ and Ⅱ,underscore the necessity for ongoing monitoring of A.baumannii.Notably,classⅠintegron presence was significantly linked to biofilm formation.Further research is needed to explore the connection between antibiotic resistance and biofilm production in A.baumannii.展开更多
The escalating global dissemination of plasmid-mediated antibiotic resistance poses a formidable threat to global health.Conjugation stands as a pivotal mechanism for horizontal gene transfer among bacterial populatio...The escalating global dissemination of plasmid-mediated antibiotic resistance poses a formidable threat to global health.Conjugation stands as a pivotal mechanism for horizontal gene transfer among bacterial populations,facilitating the spread of antibiotic resistance genes(ARGs).Microelectrolysis has garnered attention as an efficacious strategy for mitigating antibiotic concentrations in wastewater,yet its potential impact on ARG horizontal transfer remain largely unexplored.This comprehensive investigation unveils that microelectrolysis not only influences but significantly accelerates the conjugative transfer of ARG-harboring plasmids.Remarkably,this phenomenon is corroborated at the microbial community scale,underscoring its ecological relevance.Alarmingly,the study highlights the vulnerability of intestinalmicroorganisms to acquire antibiotic resistance under electrolytic stimulation,posing heightened risks to both animal and human health.Delving deeper,the study elucidates the underlyingmechanisms responsible for this enhanced conjugative transfer.It reveals that microelectrolysis augments the abundance of mating-competent cells,triggers the generation of reactive oxygen species,inflicts modest membrane damage,and upregulates the expression of genes critical for conjugation.These findings collectively contribute to a more profound comprehension of the environmental dissemination dynamics and associated public health implications of ARGs in the context of wastewater treatment employing microelectrolytic technologies.展开更多
As an emerging environmental contaminant,antibiotic resistance genes(ARGs)in tap water have attracted great attention.Although studies have provided ARG profiles in tap water,research on their abundance levels,composi...As an emerging environmental contaminant,antibiotic resistance genes(ARGs)in tap water have attracted great attention.Although studies have provided ARG profiles in tap water,research on their abundance levels,composition characteristics,and potential threat is still insufficient.Here,9 household tap water samples were collected from the Guangdong-Hong Kong-Macao Greater Bay Area(GBA)in China.Additionally,75 sets of environmental sample data(9 types)were downloaded from the public database.Metagenomics was then performed to explore the differences in the abundance and composition of ARGs.221 ARG subtypes consisting of 17 types were detected in tap water.Although the ARG abundance in tap water was not significantly different from that found in drinking water plants and reservoirs,their composition varied.In tap water samples,the three most abundant classes of resistance genes were multidrug,fosfomycin and MLS(macrolide-lincosamidestreptogramin)ARGs,and their corresponding subtypes ompR,fosX and macB were also the most abundant ARG subtypes.Regarding the potential mobility,vanS had the highest abundance on plasmids and viruses,but the absence of key genes rendered resistance to vancomycin ineffective.Generally,the majority of ARGs present in tap water were those that have not been assessed and are currently not listed as high-threat level ARG families based on the World Health Organization Guideline.Although the current potential threat to human health posed by ARGs in tap water is limited,with persistent transfer and accumulation,especially in pathogens,the potential danger to human health posed by ARGs should not be ignored.展开更多
BACKGROUND Antibiotic resistance is a key factor influencing the treatment outcomes of Helicobacter pylori(H.pylori)infection.The antibiotic resistance spectrum of H.pylori varies in different regions.We investigated ...BACKGROUND Antibiotic resistance is a key factor influencing the treatment outcomes of Helicobacter pylori(H.pylori)infection.The antibiotic resistance spectrum of H.pylori varies in different regions.We investigated the current status of antibiotic resistance of H.pylori in Hunan Province and analyzed the factors related to such resistance to provide strategies for the accurate clinical treatment of H.pylori infection.AIM To understand the antibiotic resistance of H.pylori in Hunan Province and provide guidance for the clinical treatment of H.pylori infection.METHODS This study selected patients who underwent gastroscopy in five hospitals in Hunan Province from April 2022 to April 2023.The sensitivity of H.pylori to clarithromycin,levofloxacin,metronidazole,amoxicillin,furazolidone,and tetracycline was detected using the Agar dilution method.RESULTS H.pylori strains from a total of 566 patients were isolated and identified.The resistance rates of H.pylori strains to clarithromycin,levofloxacin,metronidazole,amoxicillin,furazolidone,and tetracycline were 49.2%,37.8%,76.1%,2.3%,1.4%,and 0.7%,respectively.The resistance rates to clarithromycin,levofloxacin,and metronidazole were high in the four regions of Hunan Province,and the overall resistance rates in central Hunan Province were higher than those in other regions.The resistance rates of H.pylori strains to clarithromycin and levofloxacin were significantly different among the different age groups(P<0.05),with the elderly group having a higher resistance rate than the young group.The resistance rate of H.pylori strains to clarithromycin was greater in patients with atrophic gastritis,and the resistance rate to levofloxacin was the lowest in patients with peptic ulcers.CONCLUSION The resistance rate of H.pylori to amoxicillin,clarithromycin,and metronidazole is high in Hunan Province.Age,stomach disease,and H.pylori reinfection may affect the antibiotic resistance of H.pylori.展开更多
BACKGROUND Helicobacter pylori(H.pylori)is a Gram-negative bacillus classified as a Group I carcinogen by the World Health Organization.However,the efficacy of eradi-cation therapies has declined in recent years,prima...BACKGROUND Helicobacter pylori(H.pylori)is a Gram-negative bacillus classified as a Group I carcinogen by the World Health Organization.However,the efficacy of eradi-cation therapies has declined in recent years,primarily due to the increasing prevalence of antibiotic resistance.The Maastricht VI/Florence Consensus Report highlights the importance of tailoring treatment strategies to local epidemiological data and individual antimicrobial susceptibility patterns.AIM To investigate the efficacy of precision-guided first-line therapy for H.pylori in-fection using genotypic antibiotic susceptibility testing(G-AST).METHODS This single-center randomized controlled trial enrolled 194 H.pylori-positive patients at a tertiary hospital in Qingdao,China(October 2022-August 2024).Participants were randomized to receive either a 14-day bismuth quadruple therapy(BQT:Amoxicillin,clarithromycin,esomeprazole,and bismuth)or a 14-day G-AST-guided regimen with tailored antibiotics(clarithromycin,levofloxacin,or tetracycline).Treatment efficacy and adverse events were compared between groups using intention-to-treat(ITT)and per-protocol(PP)analyses.Primary and secondary outcomes were analyzed withχ²tests.RESULTS Of 194 patients enrolled,180(92.8%)completed the study as planned.In the ITT analysis,the eradication rate was higher in the G-AST group than in the BQT group[92.8%(95%CI:85.8-96.5)vs 79.4%(95%CI:70.3-86.2),P=0.007],with a risk difference of 13.4%(95%CI:3.7-23.2).In the PP analysis,eradication rates were 97.8%(95%CI:92.4-99.4)in the G-AST group and 84.1%(95%CI:75.1-90.3)in the BQT group(P=0.001),with a risk difference of 13.7%(95%CI:5.5-23.0).Adverse event incidence did not differ significantly between groups(30.9%vs 28.9%,P=0.754).CONCLUSION G-AST-guided therapy yielded higher eradication rates than empirical BQT in first-line H.pylori treatment without increasing adverse events,supporting the clinical utility of individualized,resistance-based therapy.展开更多
The giant African snail(Achatina fulica)is an invasive species served as potential vectors for antibiotic resistance genes(ARGs)and potential human bacterial pathogens.Currently,urban green spaces receive extensive or...The giant African snail(Achatina fulica)is an invasive species served as potential vectors for antibiotic resistance genes(ARGs)and potential human bacterial pathogens.Currently,urban green spaces receive extensive organic manure additions as part of their management,may intensify the biological contamination potential of these snail vectors,thereby increasing the risk of biological pollution in green spaces.However,the specific impacts of this practice on the microbial ecology of these invasive species remain poorly understood.Here,we investigated the effects of organic manure application on the gut microbiome of giant African snails,focusing on ARGs,bacterial community structure,and potential human bacterial pathogens.Microcosm experiments compared snail gut microbiomes in different treatments(Soil:soil samples collected after manure amendment,before any snail exposure.Feces:fecal samples collected from snails that lived on manure-amended soil.Control:fecal samples collected from snails that lived on unamended soil)using 16S r RNA high-throughput sequencing and metagenomic analysis.Our results show that manure application significantly altered gut bacterial community structure and increased ARG diversity by enriching specific high-risk ARGs(such as sul1 and sul2 in the Feces group increased by 2.89 and 2.43 times,respectively,compared to the Control group),and the introduction of eight novel ARG subtypes,despite decreasing overall ARG abundance.Moreover,the relative abundance of potential human pathogens,particularly Pseudomonadaceae,was greatly increased by manure application.These findings reveal that organic manure application in urban green spaces can potentially enhances their role as reservoirs and vectors of ARGs and human pathogens.展开更多
The exponential growth of antibiotic-resistant bacteria and antibiotic-resistant genes(ARGs)in soil-crop systems in recent years has posed a great challenge to ecological security and human health.While many studies h...The exponential growth of antibiotic-resistant bacteria and antibiotic-resistant genes(ARGs)in soil-crop systems in recent years has posed a great challenge to ecological security and human health.While many studies have documented the residues of ARGs in soils and crops,but little is known about who drives the proliferation of ARGs in farming systems and what their underlying mechanisms are.Herein,we explored the occurrence and proliferating behavior of ARGs in soil-crop environments in terms of root secretions and plant volatiles.This review highlighted that plant root secretions and volatile organic compounds(VOCs)served as key substances mediating the development of antibiotic resistance in the soil-crop system.Still,there is controversy here as to plant root secretions promote the ARGs proliferation or inhibit.Some studies indicated that root secretions can suppress the colonization of ARGs,mainly attributed by the production of bluntedmetabolic enzymes and blocking of cellular exocytosis systems.Whereas the others have evidenced that root secretions can promote ARGs proliferation,primarily by altering the structure of microbial communities to influence species interactions and thus indirectly affect the proliferation of ARGs.Also,VOCs can act as molecular signals to convey antibiotic resistance information to their neighbors,which in turn drive the up-regulation of ARGs expression.Even so,the mechanism by which VOC-driven antibiotic resistance acquisition and proliferation need to be further probed.Overall,this review contributed to the development of products and technologies to impede the ARGs proliferation in agricultural environment.展开更多
Background:In the present study prevalence of mastitis causing pathogens and their antimicrobial resistance was studied with an objective to identify most common causative agents as well as their antibiotic resistance...Background:In the present study prevalence of mastitis causing pathogens and their antimicrobial resistance was studied with an objective to identify most common causative agents as well as their antibiotic resistance.Methods:The study encompassed collection of 880 quarters milk samples from 231 animals from different dairy farms of Punjab.The samples were subjected to bacterial isolation and further confirmation by MALDI-TOF.The antibiotic sensitivity testing of isolates was also done.Results:Out of 880 milk samples,562(63.86%)were found positive by California Mastitis Test(CMT).On the basis of CMT,left hind quarters were found to be more affected 26.86%(151/222)followed by left forequarters 24.90%(140/219),right hind quarters 24.70%(139/222)and right forequarters 23.30%(13/217).Out of 562 quarter milk samples,347(61.74%)samples yielded bacterial growth and a total of 364 isolates were identified and confirmed by Matrix Assisted Laser Desorption Ionization-Time Of Flight(MALDI-TOF)analysis.It was observed that among the Gram positive organisms the prevalence of Staphylococcus spp.was(58.24%),followed by Streptococcus spp.(8.51%),Enterococcus spp.(2.74%),and Corynebacterium spp.(1.09%).Among the Gram negative organisms,most prevalent was Escherichia coli(17.58%),followed by Pseudomonas spp.(6.59%),Enterobacter spp.(2.47%),Acinetobacter spp.(1.92%)and Klebsiella spp.(0.84%).On the basis of antibiotic resistance,Oxacillin,Methicillin,Penicillin,ampicillin,chloramphenicol,co-trimoxazole,ampicillin/sulbactam,gentamicin and enrofloxacin were resistant antibiotics.Conclusion:There is high prevalence of mastitis and the most prevalent bacteria involved in the mastitis were coagulase negative staphylococci,Staphylococcus aureus and Escherichia coli.On the basis of antibiotic sensitivity test these bacteria were found resistant to various antibiotics which requires attention.展开更多
Antibiotic resistance genes(ARGs)are proposed as emerging environmental pollutants and pose potential threat to public health globally.The efficient removal of ARGs and prevention of their spread in the environment ar...Antibiotic resistance genes(ARGs)are proposed as emerging environmental pollutants and pose potential threat to public health globally.The efficient removal of ARGs and prevention of their spread in the environment are of great concern.Wastewater treatment plants are among the hotspot of ARGs transmission,however,while both conventional and advanced water treatment processes cannot effectively remove ARGs.Therefore,employing advanced materials including Mxenes,black phosphorus and single atom catalysts in the elimination of pollutants such as ARGs has garnered attention.In this review,first of all,the characteristics of ARGs and environmental parameters,which include pH and ions that influences ARGs removal were elucidated.Secondly,different types of materials used to remove ARGs were summarized.The removalmechanisms of ARGsweremainly related to adsorption(active sites)and degradation(radical and non-radical way).Finally,the design strategies for materials employed in ARGs removal were proposed.This review improves our understanding of the important roles of the traditional and advanced materials in the management of ARGs pollution.展开更多
Manure application as fertilizer can increase environmental exposure risk,as antibiotics,antibiotic resistance bacteria(ARB),and antibiotic resistant genes(ARGs)can be transmitted to agricultural fields,and adjacent n...Manure application as fertilizer can increase environmental exposure risk,as antibiotics,antibiotic resistance bacteria(ARB),and antibiotic resistant genes(ARGs)can be transmitted to agricultural fields,and adjacent natural systems.Understanding how specific antibiotics and ARGs respond within different manure fractions during on-farm management is limited.The study objective was to conduct a mass flow analysis determining the fate of antibiotic resistance factors(antibiotics,ARGs,and ARB)through solid-liquid separation,with the solid fraction continuing through a bedding recovery unit(BRU)via high temperature rotary composting for use of the manure solids as dairy cow bedding.The results show that most of the manure mass containing the antibiotic resistance factors went untreated following solid-liquid separation,with 95%of the mass leaving the separator as a liquid and pumped to a storage lagoon for field application and 5%proceeding to BRU processing.The tetracyclines and tulathromycin sorbed to the manure solids,while the beta lactams,ampicillin,and benzylpenicilloic acid were only found in the liquid fraction.The removal of antibiotic residuals during the BRU composting was insignificant,yet 40%-73%of the antibiotics were in the liquid fraction.The BRU composting was 100%effective in removing the ARB examined.Five of the eight ARGs(intl1,sul1,tetQ,tetX,and tetM)had significant reduction(>95%)following the BRU composting treatment.While the three other ARGs(tetW,ermB,and bla2)remained constant despite treatment.This study highlighted the importance of examining manure management from a mass balance perspective and understanding antibiotic resistance risk factors.展开更多
The dynamics of the composition and antibiotic resistance of the fecal coliform bacteria(FCB)in a typical wastewater treatment plant(WWTP)were investigated concerning the seasonal changes.Results showed that WWTP coul...The dynamics of the composition and antibiotic resistance of the fecal coliform bacteria(FCB)in a typical wastewater treatment plant(WWTP)were investigated concerning the seasonal changes.Results showed that WWTP could remove the FCB concentration by 3∼5 logs within the effluent of 10^(4)∼10^(5)CFU/L,but the antibiotic resistant rate of FCB species increased significantly after WWTP.The dominant FCB changed from Escherichia coli in the influent(∼73.0%)to Klebsiella pneumoniae in the effluent(∼53.3%)after WWTP,where the Escherichia coli was removed the most,while Klebsiella pneumoniae was the most persistent.The secondary tank removed the most of FCB(by 3∼4 logs)compared to other processes,but increased all the concerned antibiotic resistant rate.The potential super bugs of FCB community showing resistance to all the target antibiotics were selected in the biological treatment unit of WWTP.The FCB showed the highest multiple antibiotic resistance(92.9%)in total which even increased to 100%in the effluent.Klebsiella has the highest antibiotic resistant rate in FCB,with a multiple antibiotic resistance rate of 98.4%.These indicated that the Klebsiella pneumoniae not just Escherichia coli should be specially emphasized after WWTP concerning the health risk associated with FCB community.展开更多
Antibiotic wastewater contains a variety of pollutant stressors that can induce and promote antibiotic resistance(AR)when released into the environment.Although these substances are mostly in concentrations lower than...Antibiotic wastewater contains a variety of pollutant stressors that can induce and promote antibiotic resistance(AR)when released into the environment.Although these substances are mostly in concentrations lower than those known to induce AR individually,it is possible that antibiotic wastewater discharge might still promote the AR transmission risk via additive or synergistic effects.However,the comprehensive effect of antibiotic wastewater on AR development has rarely been evaluated,and its treatment efficiency remains unknown.Here,samples were collected from different stages of a cephalosporin production wastewater treatment plant,and the potential AR induction effect of their chemical mixtures was explored through the exposure of the antibiotic-sensitive Escherichia coli K12 strain.Incubation with raw cephalosporin production wastewater significantly promoted mutation rates(3.6×10^(3)-9.3×10^(3)-fold)and minimum inhibition concentrations(6.0-6.7-fold)of E.coli against ampicillin and chloramphenicol.This may be attributed to the inhibition effect and oxidative stress of cephalosporin wastewater on E.coli.The AR induction effect of cephalosporin wastewater decreased after the coagulation sedimentation treatment and was completely removed after the full treatment process.A Pearson correlation analysis revealed that the reduction in the AR induction effect had a strong positive correlation with the removal of organics and biological toxicity.This indicates that the antibiotic wastewater treatment had a collaborative processing effect of conventional pollutants,toxicity,and the AR induction effect.This study illustrates the potential AR transmission risk of antibiotic wastewater and highlights the need for its adequate treatment.展开更多
This study explored the combined effects of Bacillus subtilis inoculation with biochar on the evolution of bacterial communities,antibiotic resistance genes(ARGs),and mobile genetic elements(MGEs)during the composting...This study explored the combined effects of Bacillus subtilis inoculation with biochar on the evolution of bacterial communities,antibiotic resistance genes(ARGs),and mobile genetic elements(MGEs)during the composting of chicken manure.The results showed that B.subtilis inoculation combined with biochar increased bacterial abundance and diversity as well as prolonged the compost thermophilic period.Promoted organic matter biodegradation and facilitated the organic waste compost humification process,reduced the proliferation of ARGs by altering the bacterial composition.Firmicutes and Actinobacteriota were the main resistant bacteria related to ARGs and MGEs.The decrease in ARGs and MGEs was associated with the reduction in the abundance of related host bacteria.Compost inoculation with B.subtilis and the addition of biochar could promote nutrient transformation,reduce the increase in ARGs and MGEs,and increase the abundance of beneficial soil taxa.展开更多
Antibiotic resistant bacteria(ARB)with antibiotic resistance genes(ARGs)can reduce or eliminate the effectiveness of antibiotics and thus threaten human health.The United Nations Environment Programme considers antibi...Antibiotic resistant bacteria(ARB)with antibiotic resistance genes(ARGs)can reduce or eliminate the effectiveness of antibiotics and thus threaten human health.The United Nations Environment Programme considers antibiotic resistance the first of six emerging issues of concern.Advanced oxidation processes(AOPs)that combine ultraviolet(UV)irradiation and chemical oxidation(primarily chlorine,hydrogen peroxide,and persulfate)have attracted increasing interest as advanced water and wastewater treatment technologies.These integrated technologies have been reported to significantly elevate the efficiencies of ARB inactivation and ARG degradation compared with direct UV irradiation or chemical oxidation alone due to the generation of multiple reactive species.In this study,the performance and underlying mechanisms of UV/chlorine,UV/hydrogen peroxide,and UV/persulfate processes for controlling ARB and ARGs were reviewed based on recent studies.Factors affecting the process-specific efficiency in controlling ARB and ARGs were discussed,including biotic factors,oxidant dose,UV fluence,pH,and water matrix properties.In addition,the cost-effectiveness of the UV-based AOPs was evaluated using the concept of electrical energy per order.The UV/chlorine process exhibited a higher efficiency with lower energy consumption than other UV-based AOPs in the wastewater matrix,indicating its potential for ARB inactivation and ARG degradation in wastewater treatment.Further studies are required to address the trade-off between toxic byproduct formation and the energy efficiency of the UV/chlorine process in real wastewater to facilitate its optimization and application in the control of ARB and ARGs.展开更多
Antibiotic fermentation residue(AFR)is nutrient-rich solid waste generated from fermentative antibiotic production process.It is demonstrated that AFR contains high-concentration of remaining antibiotics,and thus may ...Antibiotic fermentation residue(AFR)is nutrient-rich solid waste generated from fermentative antibiotic production process.It is demonstrated that AFR contains high-concentration of remaining antibiotics,and thus may promote antibiotic resistance development in receiving environment or feeding farmed animals.However,the dominate microorganisms and antibiotic resistance genes(ARGs)in AFRs have not been adequately explored,hampering understanding on the potential antibiotic resistance risk development caused by AFRs.Herein,seven kinds of representative AFRs along their production,storage,and treatment processes were collected,and multiple methods including amplicon sequencing,metagenomic sequencing,and bioinformatic approaches were adopted to explore the biological characteristics of AFRs.As expected,antibiotic fermentation producer was found as the predominant species in raw AFRs,which were collected at the outlet of fermentation tanks.However,except for producer species,more environment-derived species persisted in stored AFRs,which were temporarily stored at a semi-open space.Lactobacillus genus,classified as Firmicutes phylum and Bacilli class,became predominant bacterial taxa in stored AFRs,which might attribute to its tolerance to high concentration of antibiotics.Results from metagenomic sequencing together with assembly and binning approaches showed that these newly-colonizing species(e.g.,Lactobacillus genus)tended to carry ARGs conferring resistance to the remaining antibiotic.However,after thermal treatment,remaining antibiotic could be efficiently removed from AFRs,and microorganisms together with DNA could be strongly destroyed.In sum,the main risk from the AFRs was the remaining antibiotic,while environment-derived bacteria which tolerate extreme environment,survived in ARFs with high content antibiotics,and may carry ARGs.Thus,hydrothermal or other harmless treatment technologies are recommended to remove antibiotic content and inactivate bacteria before recycling of AFRs in pharmaceutical industry.展开更多
AIM:To analyze the spectrum of isolated pathogens and antibiotic resistance for ocular infections within 5y at two tertiary hospitals in east China.METHODS:Ocular specimen data were collected from January 2019 to Octo...AIM:To analyze the spectrum of isolated pathogens and antibiotic resistance for ocular infections within 5y at two tertiary hospitals in east China.METHODS:Ocular specimen data were collected from January 2019 to October 2023.The pathogen spectrum and positive culture rate for different infection location,such as keratitis,endophthalmitis,and periocular infections,along with antibiotic resistance were analyzed.RESULTS:We included 2727 specimens,including 827(30.33%)positive cultures.A total of 871 strains were isolated,530(60.85%)bacterial and 341(39.15%)fungal strains were isolated.Gram-positive cocci(GPC)were the most common ocular pathogens.The most common bacterial isolates were Staphylococcus epidermidis(25.03%),Staphylococcus aureus(7.46%),Streptococcus pneumoniae(4.59%),Corynebacterium macginleyi(3.44%),and Pseudomonas aeruginosa(3.33%).The most common fungal genera were Fusarium spp.(12.74%),Aspergillus spp.(6.54%),and Scedosporium spp.(5.74%).Staphylococcus epidermidis strains showed more than 50%resistance to fluoroquinolones.Streptococcus pneumoniae and Corynebacterium macginleyi showed more than 90%resistance to erythromycin.The percentage of bacteria showing multidrug resistance(MDR)significantly decreased(χ^(2)=17.44,P=0.002).CONCLUSION:GPC are the most common ocular pathogens.Corynebacterium macginleyi,as the fourth common bacterium,may currently be the local microbiological feature of east China.Fusarium spp.is the most common fungus.More than 50%of the GPC are resistant to fluoroquinolones,penicillins,and macrolides.However,the proportion of MDR strains has been reduced over time.展开更多
基金supported by the Key Research and Development Program of Shandong Province,China(No 2021CXGC010803)Pan’an County Chinese Medicine Industry Project(No.PZYF202103).
文摘Reductive soil disinfestation(RSD)is commonly employed for soil remediation in greenhouse cultivation.However,its influence on antibiotic resistance genes(ARGs)in soil remains uncertain.This study investigated the dynamic changes in soil communities,potential bacterial pathogens,and ARG profiles under various organicmaterial treatments during RSD,including distillers’grains,potato peel,peanut vine,and peanut vine combined with charcoal.Results revealed that applying diverse organic materials in RSD significantly altered bacterial community composition and diminished the relative abundance of potential bacterial pathogens(P<0.05).The relative abundance of high-risk ARGs decreased by 10.7%-30.6%after RSD treatments,the main decreased ARG subtypeswere AAC(3)_Via,dfrA1,ErmB,lnuB,aadA.Actinobacteria was the primary host of ARGs and was suppressed by RSD.Soil physicochemical properties,such as total nitrogen,soil pH,total carbon,were crucial factors affecting ARG profiles.Our findings demonstrated that RSD treatment inhibited pathogenic bacteria and could be an option for reducing high-risk ARG proliferation in soil.
基金supported by the Natural Science Foundation of China(No.52070145,51778453).
文摘The effects of disinfectants and plasmid-based antibiotic resistance genes(ARGs)on the growth of microorganisms and the plasmid-mediated transfer of ARGs in the water and biofilm of the drinkingwater distribution system under simulated conditionswere explored.The heterotrophic plate count of the water in reactors with 0.1 mg/L NaClO and NH_(2)Cl was higher than in the control groups.Therewas no similar phenomenon in biofilm.In thewater of reactors containing NaClO,the aphA and bla geneswere lower than in the antibiotic resistant bacteria group,while both genes were higher in the water of reactors with NH_(2)Cl than in the control group.Chloramine may promote the transfer of ARGs in the water phase.Both genes in the biofilm of the reactors containing chlorine were lower than the control group.Correlation analysis between ARGs and water quality parameters revealed that the copy numbers of the aphA gene were significantly positively correlated with the copy numbers of the bla gene in water and significantly negatively correlated in biofilm(p<0.05).The results of the sequencing assay showed that bacteria in the biofilm,in the presence of disinfectant,were primarily Gram-negative.1.0 mg/L chlorine decreased the diversity of the community in the biofilm.The relative abundance of some bacteria that may undergo transfer increased in the biofilm of the reactor containing 0.1 mg/L chlorine.
基金supported by the Key Research Program of Wuhan(No.2022022202015015)the State Key Laboratory of Urban Water Resource and Environment(Harbin Institute of Technology)(No.2022TS13)+1 种基金the key projects of National Natural Science Foundation of China(No.2019YFC0408503)Shanghai Tongji Gao Tingyao Environmental Technology Development Foundation.
文摘Microalgae-bacteria system is an emerging alternative for sustainable wastewater treatment.Exploring the structure and diversity of microbial community in microalgae-bacteria system under sulfadiazine stress can contribute to the understanding of the sulfadiazine behavior in environments.Furthermore,as important carriers of antibiotic resistance genes(ARGs),microalgae can influence the profiles of ARGs either directly or indirectly through the secretion of metabolites.However,the effects of sulfadiazine on ARGs dissemination of microalgae-bacteria systems remain underreported.Herein,the impacts of sulfadiazine(1 mg/L)on the structural diversity and metabolic activity of microorganisms were examined in microalgae-bacteria systems.Results showed thatmicroalgae-bacteria system could remove NH_(4)^(+)-N better(about 72.3%)than activated sludge system,and hydrolysis was the first step in sulfadiazine degradation.A high level of intI1(5.7×10^(4) copies/mL)was detected in the initial media of the microalgae-bacteria system.Microalgae could hamper the rate of horizontal gene transfer activation.Compared with activated sludge system,the abundance of sul genes(sul1,sul2,sul3,and sulA)was significantly lowered after treating with microalgae-bacteria system.Additionally,the number of proteins and the sum of polysaccharides in the extracellular polymeric substances of the activated sludge system were lower than those of themicroalgae-bacteria system.Microalgae can altermicrobial communities.The genus Rozellomycota predominated all samples.Fungi with relatively high abundance increased in the microalgae-bacteria system,including Dipodascaceae,Rhodotorula,and Geotrichum.These results offer valuable insights into the application processes involving microalgae-bacteria system.
基金supported by the National Natural Science Foundation of China(Nos.52091545 and 51978645).
文摘The objective of this study is to quantitatively reveal the main genetic carrier of antibiotic resistance genes(ARGs)for blocking their environmental dissemination.The distribution of ARGs in chromosomes,plasmids,and phages for understanding their respective contributions to the development of antimicrobial resistance in aerobic biofilm consortium under increasing stresses of oxytetracycline,streptomycin,and tigecyclinewere revealed based on metagenomics analysis.Results showed that the plasmids harbored 49.2%-83.9%of resistomes,which was higher(p<0.001)than chromosomes(2.0%-35.6%),and no ARGs were detected in phage contigs under the strict alignment standard of over 80%identity used in this study.Plasmids and chromosomes tended to encode different types of ARGs,whose abundances all increased with the hike of antibiotic concentrations,and the variety of ARGs encoded by plasmids(14 types and 64 subtypes)was higher than that(11 types and 27 subtypes)of chromosomes.The dosing of the three antibiotics facilitated the transposition and recombination of ARGs on plasmids,mediated by transposable and integrable transfer elements,which increased the co-occurrence of associated and unassociated ARGs.The results quantitatively proved that plasmids dominate the proliferation of ARGs in aerobic biofilm driven by antibiotic selection,which should be a key target for blocking ARG dissemination.
基金This study was financially supported by the Vice Chancellor for Research Affairs,Ilam University of Medical Sciences,Ilam,Iran(Project No.1326).
文摘Objective:To investigate the pattern of antibiotic resistance and biofilm production capabilities of clinical Acinetobacter baumannii(A.baumannii)isolates in this study.Methods:A.baumannii isolates were collected from Tehran Imam Khomeini Hospital in this cross-sectional study,and the minimum inhibitory concentrations for 16 antibiotics were determined using Vitek2®systems.All isolates were analyzed for biofilm production,then presence of biofilm-associated genes,and class Ⅰ and Ⅱ integron genes.Results:60 non-replicate A.baumannii isolates were included in this study.The resistance rates reached 100%for aztreonam,cefepime,ceftazidime,ciprofloxacin,piperacillin-tazobactam,piperacillin,ticarcillin,and trimethoprim-sulfamethoxazole.A.baumannii isolates were most sensitive to colistin and rifampicin being the most effective treatments.Multi-drug resistant and extensively drug-resistant isolates accounted for 83.3%and 16.7%,respectively.Of the isolates,91.6%formed biofilms,categorized as 10%strong,31.6%moderate,and 50%weak.No correlation was found between antibiotic resistance and biofilm formation.The genes csuE,abaI,and ompA were prevalent,but their distribution was similar across biofilm categories.A relationship between Int1 and biofilm production was noted.Conclusions:The high rates of antibiotic resistance and biofilm formation,alongside the presence of integrons including class Ⅰ and Ⅱ,underscore the necessity for ongoing monitoring of A.baumannii.Notably,classⅠintegron presence was significantly linked to biofilm formation.Further research is needed to explore the connection between antibiotic resistance and biofilm production in A.baumannii.
基金supported by Jiangsu Agriculture Science and Technology Innovation Fund(No.CX(22)3001)。
文摘The escalating global dissemination of plasmid-mediated antibiotic resistance poses a formidable threat to global health.Conjugation stands as a pivotal mechanism for horizontal gene transfer among bacterial populations,facilitating the spread of antibiotic resistance genes(ARGs).Microelectrolysis has garnered attention as an efficacious strategy for mitigating antibiotic concentrations in wastewater,yet its potential impact on ARG horizontal transfer remain largely unexplored.This comprehensive investigation unveils that microelectrolysis not only influences but significantly accelerates the conjugative transfer of ARG-harboring plasmids.Remarkably,this phenomenon is corroborated at the microbial community scale,underscoring its ecological relevance.Alarmingly,the study highlights the vulnerability of intestinalmicroorganisms to acquire antibiotic resistance under electrolytic stimulation,posing heightened risks to both animal and human health.Delving deeper,the study elucidates the underlyingmechanisms responsible for this enhanced conjugative transfer.It reveals that microelectrolysis augments the abundance of mating-competent cells,triggers the generation of reactive oxygen species,inflicts modest membrane damage,and upregulates the expression of genes critical for conjugation.These findings collectively contribute to a more profound comprehension of the environmental dissemination dynamics and associated public health implications of ARGs in the context of wastewater treatment employing microelectrolytic technologies.
基金supported by the National Key R&D Program of China(No.2022YFE0103200)the Hubei Provincial Natural Science Foundation of China(No.2021CFB016)the National Natural Science Foundation of China(No.52100217).
文摘As an emerging environmental contaminant,antibiotic resistance genes(ARGs)in tap water have attracted great attention.Although studies have provided ARG profiles in tap water,research on their abundance levels,composition characteristics,and potential threat is still insufficient.Here,9 household tap water samples were collected from the Guangdong-Hong Kong-Macao Greater Bay Area(GBA)in China.Additionally,75 sets of environmental sample data(9 types)were downloaded from the public database.Metagenomics was then performed to explore the differences in the abundance and composition of ARGs.221 ARG subtypes consisting of 17 types were detected in tap water.Although the ARG abundance in tap water was not significantly different from that found in drinking water plants and reservoirs,their composition varied.In tap water samples,the three most abundant classes of resistance genes were multidrug,fosfomycin and MLS(macrolide-lincosamidestreptogramin)ARGs,and their corresponding subtypes ompR,fosX and macB were also the most abundant ARG subtypes.Regarding the potential mobility,vanS had the highest abundance on plasmids and viruses,but the absence of key genes rendered resistance to vancomycin ineffective.Generally,the majority of ARGs present in tap water were those that have not been assessed and are currently not listed as high-threat level ARG families based on the World Health Organization Guideline.Although the current potential threat to human health posed by ARGs in tap water is limited,with persistent transfer and accumulation,especially in pathogens,the potential danger to human health posed by ARGs should not be ignored.
基金Supported by the National Natural Science Foundation of China,No.82270594the Independent Exploration and Innovation Project of Central South University,No.2024ZZTS0966.
文摘BACKGROUND Antibiotic resistance is a key factor influencing the treatment outcomes of Helicobacter pylori(H.pylori)infection.The antibiotic resistance spectrum of H.pylori varies in different regions.We investigated the current status of antibiotic resistance of H.pylori in Hunan Province and analyzed the factors related to such resistance to provide strategies for the accurate clinical treatment of H.pylori infection.AIM To understand the antibiotic resistance of H.pylori in Hunan Province and provide guidance for the clinical treatment of H.pylori infection.METHODS This study selected patients who underwent gastroscopy in five hospitals in Hunan Province from April 2022 to April 2023.The sensitivity of H.pylori to clarithromycin,levofloxacin,metronidazole,amoxicillin,furazolidone,and tetracycline was detected using the Agar dilution method.RESULTS H.pylori strains from a total of 566 patients were isolated and identified.The resistance rates of H.pylori strains to clarithromycin,levofloxacin,metronidazole,amoxicillin,furazolidone,and tetracycline were 49.2%,37.8%,76.1%,2.3%,1.4%,and 0.7%,respectively.The resistance rates to clarithromycin,levofloxacin,and metronidazole were high in the four regions of Hunan Province,and the overall resistance rates in central Hunan Province were higher than those in other regions.The resistance rates of H.pylori strains to clarithromycin and levofloxacin were significantly different among the different age groups(P<0.05),with the elderly group having a higher resistance rate than the young group.The resistance rate of H.pylori strains to clarithromycin was greater in patients with atrophic gastritis,and the resistance rate to levofloxacin was the lowest in patients with peptic ulcers.CONCLUSION The resistance rate of H.pylori to amoxicillin,clarithromycin,and metronidazole is high in Hunan Province.Age,stomach disease,and H.pylori reinfection may affect the antibiotic resistance of H.pylori.
基金Supported by Qilu Health Outstanding Young Talent Cultivation Project,No.QDFY-3839.
文摘BACKGROUND Helicobacter pylori(H.pylori)is a Gram-negative bacillus classified as a Group I carcinogen by the World Health Organization.However,the efficacy of eradi-cation therapies has declined in recent years,primarily due to the increasing prevalence of antibiotic resistance.The Maastricht VI/Florence Consensus Report highlights the importance of tailoring treatment strategies to local epidemiological data and individual antimicrobial susceptibility patterns.AIM To investigate the efficacy of precision-guided first-line therapy for H.pylori in-fection using genotypic antibiotic susceptibility testing(G-AST).METHODS This single-center randomized controlled trial enrolled 194 H.pylori-positive patients at a tertiary hospital in Qingdao,China(October 2022-August 2024).Participants were randomized to receive either a 14-day bismuth quadruple therapy(BQT:Amoxicillin,clarithromycin,esomeprazole,and bismuth)or a 14-day G-AST-guided regimen with tailored antibiotics(clarithromycin,levofloxacin,or tetracycline).Treatment efficacy and adverse events were compared between groups using intention-to-treat(ITT)and per-protocol(PP)analyses.Primary and secondary outcomes were analyzed withχ²tests.RESULTS Of 194 patients enrolled,180(92.8%)completed the study as planned.In the ITT analysis,the eradication rate was higher in the G-AST group than in the BQT group[92.8%(95%CI:85.8-96.5)vs 79.4%(95%CI:70.3-86.2),P=0.007],with a risk difference of 13.4%(95%CI:3.7-23.2).In the PP analysis,eradication rates were 97.8%(95%CI:92.4-99.4)in the G-AST group and 84.1%(95%CI:75.1-90.3)in the BQT group(P=0.001),with a risk difference of 13.7%(95%CI:5.5-23.0).Adverse event incidence did not differ significantly between groups(30.9%vs 28.9%,P=0.754).CONCLUSION G-AST-guided therapy yielded higher eradication rates than empirical BQT in first-line H.pylori treatment without increasing adverse events,supporting the clinical utility of individualized,resistance-based therapy.
基金supported by the National Natural Science Foundation of China(Nos.32361143523 and 42407166)the National Key Research and Development Program of China(No.2023YFF1304600)+2 种基金Ningbo S&T project(No.2021-DST-004)the International Partnership Program of Chinese Academy of Sciences(No.322GJHZ2022028FN)the fellowship of China Postdoctoral Science Foundation(No.2022T150635)。
文摘The giant African snail(Achatina fulica)is an invasive species served as potential vectors for antibiotic resistance genes(ARGs)and potential human bacterial pathogens.Currently,urban green spaces receive extensive organic manure additions as part of their management,may intensify the biological contamination potential of these snail vectors,thereby increasing the risk of biological pollution in green spaces.However,the specific impacts of this practice on the microbial ecology of these invasive species remain poorly understood.Here,we investigated the effects of organic manure application on the gut microbiome of giant African snails,focusing on ARGs,bacterial community structure,and potential human bacterial pathogens.Microcosm experiments compared snail gut microbiomes in different treatments(Soil:soil samples collected after manure amendment,before any snail exposure.Feces:fecal samples collected from snails that lived on manure-amended soil.Control:fecal samples collected from snails that lived on unamended soil)using 16S r RNA high-throughput sequencing and metagenomic analysis.Our results show that manure application significantly altered gut bacterial community structure and increased ARG diversity by enriching specific high-risk ARGs(such as sul1 and sul2 in the Feces group increased by 2.89 and 2.43 times,respectively,compared to the Control group),and the introduction of eight novel ARG subtypes,despite decreasing overall ARG abundance.Moreover,the relative abundance of potential human pathogens,particularly Pseudomonadaceae,was greatly increased by manure application.These findings reveal that organic manure application in urban green spaces can potentially enhances their role as reservoirs and vectors of ARGs and human pathogens.
基金supported by the Youth innovation Program of Chinese Academy of Agricultural Sciences(No.Y2023QC32)the foundation of Tianjin Natural Science Foundation(No.22JCQNJC01460)the Science and Technology Innovation Project of Chinese Academy of Agricultural Sciences(Agro-Environmental Protection Institute,Ministry of Agricultural and Rural Affairs)and the Youth Talent Project of Agro-Environmental Protection Institute,Ministry of Agricultural and Rural Affairs(Xu Yan).
文摘The exponential growth of antibiotic-resistant bacteria and antibiotic-resistant genes(ARGs)in soil-crop systems in recent years has posed a great challenge to ecological security and human health.While many studies have documented the residues of ARGs in soils and crops,but little is known about who drives the proliferation of ARGs in farming systems and what their underlying mechanisms are.Herein,we explored the occurrence and proliferating behavior of ARGs in soil-crop environments in terms of root secretions and plant volatiles.This review highlighted that plant root secretions and volatile organic compounds(VOCs)served as key substances mediating the development of antibiotic resistance in the soil-crop system.Still,there is controversy here as to plant root secretions promote the ARGs proliferation or inhibit.Some studies indicated that root secretions can suppress the colonization of ARGs,mainly attributed by the production of bluntedmetabolic enzymes and blocking of cellular exocytosis systems.Whereas the others have evidenced that root secretions can promote ARGs proliferation,primarily by altering the structure of microbial communities to influence species interactions and thus indirectly affect the proliferation of ARGs.Also,VOCs can act as molecular signals to convey antibiotic resistance information to their neighbors,which in turn drive the up-regulation of ARGs expression.Even so,the mechanism by which VOC-driven antibiotic resistance acquisition and proliferation need to be further probed.Overall,this review contributed to the development of products and technologies to impede the ARGs proliferation in agricultural environment.
文摘Background:In the present study prevalence of mastitis causing pathogens and their antimicrobial resistance was studied with an objective to identify most common causative agents as well as their antibiotic resistance.Methods:The study encompassed collection of 880 quarters milk samples from 231 animals from different dairy farms of Punjab.The samples were subjected to bacterial isolation and further confirmation by MALDI-TOF.The antibiotic sensitivity testing of isolates was also done.Results:Out of 880 milk samples,562(63.86%)were found positive by California Mastitis Test(CMT).On the basis of CMT,left hind quarters were found to be more affected 26.86%(151/222)followed by left forequarters 24.90%(140/219),right hind quarters 24.70%(139/222)and right forequarters 23.30%(13/217).Out of 562 quarter milk samples,347(61.74%)samples yielded bacterial growth and a total of 364 isolates were identified and confirmed by Matrix Assisted Laser Desorption Ionization-Time Of Flight(MALDI-TOF)analysis.It was observed that among the Gram positive organisms the prevalence of Staphylococcus spp.was(58.24%),followed by Streptococcus spp.(8.51%),Enterococcus spp.(2.74%),and Corynebacterium spp.(1.09%).Among the Gram negative organisms,most prevalent was Escherichia coli(17.58%),followed by Pseudomonas spp.(6.59%),Enterobacter spp.(2.47%),Acinetobacter spp.(1.92%)and Klebsiella spp.(0.84%).On the basis of antibiotic resistance,Oxacillin,Methicillin,Penicillin,ampicillin,chloramphenicol,co-trimoxazole,ampicillin/sulbactam,gentamicin and enrofloxacin were resistant antibiotics.Conclusion:There is high prevalence of mastitis and the most prevalent bacteria involved in the mastitis were coagulase negative staphylococci,Staphylococcus aureus and Escherichia coli.On the basis of antibiotic sensitivity test these bacteria were found resistant to various antibiotics which requires attention.
基金supported by the National Natural Science Foundation of China(Nos.22276141 and 22236006)the Fundamental Research Funds for the Central Universities(No.22120220581).
文摘Antibiotic resistance genes(ARGs)are proposed as emerging environmental pollutants and pose potential threat to public health globally.The efficient removal of ARGs and prevention of their spread in the environment are of great concern.Wastewater treatment plants are among the hotspot of ARGs transmission,however,while both conventional and advanced water treatment processes cannot effectively remove ARGs.Therefore,employing advanced materials including Mxenes,black phosphorus and single atom catalysts in the elimination of pollutants such as ARGs has garnered attention.In this review,first of all,the characteristics of ARGs and environmental parameters,which include pH and ions that influences ARGs removal were elucidated.Secondly,different types of materials used to remove ARGs were summarized.The removalmechanisms of ARGsweremainly related to adsorption(active sites)and degradation(radical and non-radical way).Finally,the design strategies for materials employed in ARGs removal were proposed.This review improves our understanding of the important roles of the traditional and advanced materials in the management of ARGs pollution.
基金supported by the U.S.Department of Agriculture NIFA Award(No.2018-68003-27467).
文摘Manure application as fertilizer can increase environmental exposure risk,as antibiotics,antibiotic resistance bacteria(ARB),and antibiotic resistant genes(ARGs)can be transmitted to agricultural fields,and adjacent natural systems.Understanding how specific antibiotics and ARGs respond within different manure fractions during on-farm management is limited.The study objective was to conduct a mass flow analysis determining the fate of antibiotic resistance factors(antibiotics,ARGs,and ARB)through solid-liquid separation,with the solid fraction continuing through a bedding recovery unit(BRU)via high temperature rotary composting for use of the manure solids as dairy cow bedding.The results show that most of the manure mass containing the antibiotic resistance factors went untreated following solid-liquid separation,with 95%of the mass leaving the separator as a liquid and pumped to a storage lagoon for field application and 5%proceeding to BRU processing.The tetracyclines and tulathromycin sorbed to the manure solids,while the beta lactams,ampicillin,and benzylpenicilloic acid were only found in the liquid fraction.The removal of antibiotic residuals during the BRU composting was insignificant,yet 40%-73%of the antibiotics were in the liquid fraction.The BRU composting was 100%effective in removing the ARB examined.Five of the eight ARGs(intl1,sul1,tetQ,tetX,and tetM)had significant reduction(>95%)following the BRU composting treatment.While the three other ARGs(tetW,ermB,and bla2)remained constant despite treatment.This study highlighted the importance of examining manure management from a mass balance perspective and understanding antibiotic resistance risk factors.
基金supported by the Guangxi Key Research and Development Program(No.AB21196036)the Major science and Technology Project of Nanning(No.20213121)the State Key Joint Laboratory of Environmental Simulation and Pollution Control of China(No.22Z02ESPCR).
文摘The dynamics of the composition and antibiotic resistance of the fecal coliform bacteria(FCB)in a typical wastewater treatment plant(WWTP)were investigated concerning the seasonal changes.Results showed that WWTP could remove the FCB concentration by 3∼5 logs within the effluent of 10^(4)∼10^(5)CFU/L,but the antibiotic resistant rate of FCB species increased significantly after WWTP.The dominant FCB changed from Escherichia coli in the influent(∼73.0%)to Klebsiella pneumoniae in the effluent(∼53.3%)after WWTP,where the Escherichia coli was removed the most,while Klebsiella pneumoniae was the most persistent.The secondary tank removed the most of FCB(by 3∼4 logs)compared to other processes,but increased all the concerned antibiotic resistant rate.The potential super bugs of FCB community showing resistance to all the target antibiotics were selected in the biological treatment unit of WWTP.The FCB showed the highest multiple antibiotic resistance(92.9%)in total which even increased to 100%in the effluent.Klebsiella has the highest antibiotic resistant rate in FCB,with a multiple antibiotic resistance rate of 98.4%.These indicated that the Klebsiella pneumoniae not just Escherichia coli should be specially emphasized after WWTP concerning the health risk associated with FCB community.
基金supported by the National Key Research and Development Program of China(No.2017ZX07103-007)。
文摘Antibiotic wastewater contains a variety of pollutant stressors that can induce and promote antibiotic resistance(AR)when released into the environment.Although these substances are mostly in concentrations lower than those known to induce AR individually,it is possible that antibiotic wastewater discharge might still promote the AR transmission risk via additive or synergistic effects.However,the comprehensive effect of antibiotic wastewater on AR development has rarely been evaluated,and its treatment efficiency remains unknown.Here,samples were collected from different stages of a cephalosporin production wastewater treatment plant,and the potential AR induction effect of their chemical mixtures was explored through the exposure of the antibiotic-sensitive Escherichia coli K12 strain.Incubation with raw cephalosporin production wastewater significantly promoted mutation rates(3.6×10^(3)-9.3×10^(3)-fold)and minimum inhibition concentrations(6.0-6.7-fold)of E.coli against ampicillin and chloramphenicol.This may be attributed to the inhibition effect and oxidative stress of cephalosporin wastewater on E.coli.The AR induction effect of cephalosporin wastewater decreased after the coagulation sedimentation treatment and was completely removed after the full treatment process.A Pearson correlation analysis revealed that the reduction in the AR induction effect had a strong positive correlation with the removal of organics and biological toxicity.This indicates that the antibiotic wastewater treatment had a collaborative processing effect of conventional pollutants,toxicity,and the AR induction effect.This study illustrates the potential AR transmission risk of antibiotic wastewater and highlights the need for its adequate treatment.
基金supported by the Science and Technology Innovation Special Fund Project of Fujian Agriculture and Forestry University (No.CXZX2020073A)Project of Fujian Provincial Department of Science and Technology,China (No.2022N5007)。
文摘This study explored the combined effects of Bacillus subtilis inoculation with biochar on the evolution of bacterial communities,antibiotic resistance genes(ARGs),and mobile genetic elements(MGEs)during the composting of chicken manure.The results showed that B.subtilis inoculation combined with biochar increased bacterial abundance and diversity as well as prolonged the compost thermophilic period.Promoted organic matter biodegradation and facilitated the organic waste compost humification process,reduced the proliferation of ARGs by altering the bacterial composition.Firmicutes and Actinobacteriota were the main resistant bacteria related to ARGs and MGEs.The decrease in ARGs and MGEs was associated with the reduction in the abundance of related host bacteria.Compost inoculation with B.subtilis and the addition of biochar could promote nutrient transformation,reduce the increase in ARGs and MGEs,and increase the abundance of beneficial soil taxa.
基金supported by grants from the Research Grants Council of the Hong Kong SAR,China(T21-705/20-N and 16210221).
文摘Antibiotic resistant bacteria(ARB)with antibiotic resistance genes(ARGs)can reduce or eliminate the effectiveness of antibiotics and thus threaten human health.The United Nations Environment Programme considers antibiotic resistance the first of six emerging issues of concern.Advanced oxidation processes(AOPs)that combine ultraviolet(UV)irradiation and chemical oxidation(primarily chlorine,hydrogen peroxide,and persulfate)have attracted increasing interest as advanced water and wastewater treatment technologies.These integrated technologies have been reported to significantly elevate the efficiencies of ARB inactivation and ARG degradation compared with direct UV irradiation or chemical oxidation alone due to the generation of multiple reactive species.In this study,the performance and underlying mechanisms of UV/chlorine,UV/hydrogen peroxide,and UV/persulfate processes for controlling ARB and ARGs were reviewed based on recent studies.Factors affecting the process-specific efficiency in controlling ARB and ARGs were discussed,including biotic factors,oxidant dose,UV fluence,pH,and water matrix properties.In addition,the cost-effectiveness of the UV-based AOPs was evaluated using the concept of electrical energy per order.The UV/chlorine process exhibited a higher efficiency with lower energy consumption than other UV-based AOPs in the wastewater matrix,indicating its potential for ARB inactivation and ARG degradation in wastewater treatment.Further studies are required to address the trade-off between toxic byproduct formation and the energy efficiency of the UV/chlorine process in real wastewater to facilitate its optimization and application in the control of ARB and ARGs.
基金supported by the National Natural Science Foundation of China (No.32141002)。
文摘Antibiotic fermentation residue(AFR)is nutrient-rich solid waste generated from fermentative antibiotic production process.It is demonstrated that AFR contains high-concentration of remaining antibiotics,and thus may promote antibiotic resistance development in receiving environment or feeding farmed animals.However,the dominate microorganisms and antibiotic resistance genes(ARGs)in AFRs have not been adequately explored,hampering understanding on the potential antibiotic resistance risk development caused by AFRs.Herein,seven kinds of representative AFRs along their production,storage,and treatment processes were collected,and multiple methods including amplicon sequencing,metagenomic sequencing,and bioinformatic approaches were adopted to explore the biological characteristics of AFRs.As expected,antibiotic fermentation producer was found as the predominant species in raw AFRs,which were collected at the outlet of fermentation tanks.However,except for producer species,more environment-derived species persisted in stored AFRs,which were temporarily stored at a semi-open space.Lactobacillus genus,classified as Firmicutes phylum and Bacilli class,became predominant bacterial taxa in stored AFRs,which might attribute to its tolerance to high concentration of antibiotics.Results from metagenomic sequencing together with assembly and binning approaches showed that these newly-colonizing species(e.g.,Lactobacillus genus)tended to carry ARGs conferring resistance to the remaining antibiotic.However,after thermal treatment,remaining antibiotic could be efficiently removed from AFRs,and microorganisms together with DNA could be strongly destroyed.In sum,the main risk from the AFRs was the remaining antibiotic,while environment-derived bacteria which tolerate extreme environment,survived in ARFs with high content antibiotics,and may carry ARGs.Thus,hydrothermal or other harmless treatment technologies are recommended to remove antibiotic content and inactivate bacteria before recycling of AFRs in pharmaceutical industry.
基金Supported by National Natural Science Foundation of China(No.82101101).
文摘AIM:To analyze the spectrum of isolated pathogens and antibiotic resistance for ocular infections within 5y at two tertiary hospitals in east China.METHODS:Ocular specimen data were collected from January 2019 to October 2023.The pathogen spectrum and positive culture rate for different infection location,such as keratitis,endophthalmitis,and periocular infections,along with antibiotic resistance were analyzed.RESULTS:We included 2727 specimens,including 827(30.33%)positive cultures.A total of 871 strains were isolated,530(60.85%)bacterial and 341(39.15%)fungal strains were isolated.Gram-positive cocci(GPC)were the most common ocular pathogens.The most common bacterial isolates were Staphylococcus epidermidis(25.03%),Staphylococcus aureus(7.46%),Streptococcus pneumoniae(4.59%),Corynebacterium macginleyi(3.44%),and Pseudomonas aeruginosa(3.33%).The most common fungal genera were Fusarium spp.(12.74%),Aspergillus spp.(6.54%),and Scedosporium spp.(5.74%).Staphylococcus epidermidis strains showed more than 50%resistance to fluoroquinolones.Streptococcus pneumoniae and Corynebacterium macginleyi showed more than 90%resistance to erythromycin.The percentage of bacteria showing multidrug resistance(MDR)significantly decreased(χ^(2)=17.44,P=0.002).CONCLUSION:GPC are the most common ocular pathogens.Corynebacterium macginleyi,as the fourth common bacterium,may currently be the local microbiological feature of east China.Fusarium spp.is the most common fungus.More than 50%of the GPC are resistant to fluoroquinolones,penicillins,and macrolides.However,the proportion of MDR strains has been reduced over time.
