圈养食叶猴的肠道菌群特征

充分认识圈养食叶猴的肠道菌群组成特征, 为饲养管理方法的改进提供参考依据。

通过MiSeq高通量测序平台对3个物种的19个个体[黑叶猴(n=5)、川金丝猴(n=9)和西非黑白疣猴(n=5)]的肠道菌群16S rRNA V4-V5区进行测序和分析。

食叶猴肠道菌群以厚壁菌门和拟杆菌门为优势菌门, 瘤胃菌科、普氏菌科、理研菌科和毛螺菌科为优势菌科, 普氏菌属、密螺旋体属和瘤胃球菌属为优势菌属; 食叶猴物种间肠道菌群组成存在显著差异, 肠道菌群按照宿主物种聚类, 而不受环境因素的影响。

宿主物种是决定肠道微生物组成的重要因素, 食叶猴肠道菌群特征反映了宿主对其食性的适应。

     

不同程度颅脑疾病患者肠道菌群分析

检测不同程度颅脑疾病患者肠道菌群分布情况, 探讨患者肠道菌群分布与疾病的关系, 为该类患者的治疗提供参考。

通过MiSeq PE2x300 bp高通量测序技术对21例重度颅脑损伤患者(G1组, GCS≤8分)和14例轻度颅脑损伤患者(G2组, GCS > 8分)粪便样本中细菌的16S rRNA基因V3-V4可变区进行定性分析, 并对两组患者肠道菌群进行生物学分类比较、多样性分析和组间物种差异分析。

两组患者肠道菌群多样性差异无统计学意义(均P > 0.05)。G1组患者肠道厌氧球菌属(Anaerococcus)、埃希菌-志贺菌属(Escherichia-Shigella)、链球菌属(Streptococcus)、肠球菌属(Enterococcus)、棒状杆菌属(Corynebacterium)数量高于G2组(均P < 0.05)。

颅脑疾病患者肠道菌群紊乱, 其肠道菌群丰度及多样性显著下降, 有害菌数量升高, 有益菌数量下降。

     

腹泻仔猪大肠埃希菌分离株ST4214的全基因组测序分析

分析腹泻仔猪大肠埃希菌(E.coli)分离株血清型、毒力因子及耐药基因。

本课题组前期研究从腹泻仔猪粪便样本中分离到64株E.coli, 本研究取其中含有毒力因子最多的1株进行全基因组测序分析。

E.coli分离株基因组序列为5.5 Mb, 预测蛋白质编码序列数为5 743, 与已知致病菌E.coli O145的基因重合率较低, 为64.53%。经多位点序列分型分析, 确定分离株为E.coli ST4214, 血清型为O3∶H45。与病原菌O157∶H7、O145∶H28和O104∶H4的毒力基因比较表明: 4株菌共同含有的毒力基因为354个, E.coli ST4214含有64种独特的毒力基因、编码鞭毛蛋白、Ⅳ型分泌蛋白、Ⅱ型分泌蛋白、溶血素、菌毛、肠毒素、荚膜多糖相关蛋白质。耐药基因E.coli分离株含有氨基香豆素抗性基因、磺胺类耐药基因、β-内酰胺抗性基因、多粘菌素耐药基因、肽抗生素抗性基因和抗生素耐药基因外排泵等多重耐药基因。

腹泻仔猪E.coli ST4214分离株是一株新菌株, 具有较多毒力因子及耐药基因, 可能与仔猪腹泻发病相关。

     

摔跤运动员赛前集训控体重对肠道菌群及其代谢物的影响

探究赛前集训控体重对高水平摔跤运动员肠道菌群及代谢物的影响。

招募某省摔跤队运动员11名,在赛前集训期前后测量身体成分、收集粪便样本,采用16S rRNA基因测序技术检测肠道微生物的分布和丰度,利用非靶向代谢组学分析微生物的差异代谢产物及其所富集的功能。

摔跤运动员赛前集训后体重显著降低（P＜0.05）,但肌肉含量无显著差异。微生物组结果显示,控体重前后男女运动员肠道菌群alpha多样性和beta多样性均无显著差异。男性运动员Intestinibacter丰度显著增高（P＜0.05）,且与体重、四肢骨骼肌指数变化量呈正相关。代谢组学分析结果显示,男性运动员菌群差异代谢物富集于硫代谢和主要胆汁酸代谢相关通路,女性运动员菌群差异代谢物富集于神经活性配体—受体交互相关信号通路;Intestinibacter丰度变化与胆汁酸7alpha-hydroxy-3-oxo-4-cholestenoate变化呈正相关。

赛前集训控体重未影响摔跤运动员肠道菌群生物多样性和整体物种构成,但可以改变男性摔跤运动员肠道菌群中产丁酸盐菌属的相对丰度,整体表现为运动员肠道菌群对控体重过程较为适应。

     

上海市崇明区猪—土壤界面微生态与抗生素耐药性相关性分析

探究养殖场内育肥猪粪便与土壤的微生物组成和抗生素耐药基因构成,并挖掘之间的关联。

选择上海市崇明区5家猪养殖场,采集猪粪便和土壤样本,使用Illumina NovaSeq 6000高通量测序平台进行全基因组鸟枪法测序。通过主坐标分析、LEfSe分析、共现网络分析和统计学检验,探究样本微生物组成、多样性特征和抗生素耐药基因之间的关系。

猪粪便中的主要微生物包括拟杆菌门、厚壁菌门、变形菌门和放线菌门,主要耐药基因类型包括多药耐药类、四环素类、糖肽类、肽类、氟喹诺酮类和β-内酰胺类等。来自同一养猪场的样本在微生物丰度和耐药基因多样性上存在相关性。此外,研究还发现养猪场运作因素如饲料成分、饲养密度和卫生环境等,导致了不同养猪场之间的微生物组成和耐药基因的差异。在猪粪—土壤界面,一些有益微生物之间存在共生关系,具有抑制潜在病原微生物的生长能力,并对土壤微生态产生影响。不同类型的耐药基因之间也存在共生关系。

通过宏基因组学方法研究了猪粪便与土壤中的微生物和耐药基因,揭示了微生物与抗生素耐药基因之间的相关性,提出微生物群是耐药基因谱的重要驱动因素。这一发现为通过微生态调控来预防和控制抗生素耐药性提供了科学依据。

     

急性脑卒中患者肠道菌群研究

通过粪便标本检测急性脑卒中患者肠道菌群变化情况, 探讨急性脑卒中患者肠道菌群结构。

通过高通量二代测序技术对10例健康者(对照组)及10例急性脑卒中患者(疾病组)粪便样本进行菌群结构测序分析。

与对照组比较, 急性脑卒中患者粪便样本中物种OTU信息量显著增加(P < 0.01), 菌群多样性指数(Shannon)和物种均一度指数(Evenness)也有所增加但差异无统计学意义(均P > 0.05)。门水平上, 疾病组患者肠道Bacteroidetes数量较对照组显著增加, Firmicutes数量显著减少(均P < 0.05)。属水平上, 疾病组患者肠道Bacteroides、Bilophila、Butyricimonas比例较对照组显著升高, 而Collinsella、Coprococcus、Clostridium等比例较对照组显著降低(均P < 0.05)。

急性脑卒中患者肠道菌群结构与健康人存在显著差异。

     

糖尿病药物那格列奈促进嗜酸乳杆菌生长的作用

系统评价糖尿病药物对乳杆菌属微生物生长的影响,并进一步探讨糖尿病药物促进乳杆菌属微生物生长的作用机制。

利用体外纯培养法评估糖尿病药物对乳杆菌属微生物生长的影响,筛选出具有促进作用的“药菌组合”,并进一步采用非靶向代谢组学技术检测“药菌组合”培养液上清中的代谢物组;采用结晶紫染色法和RT-qPCR法分别检测特定乳杆菌生物膜形成和细菌素生物合成基因的表达。

10种常见糖尿病药物对乳杆菌的生长主要表现为抑制作用,仅那格列奈可在低浓度下刺激嗜酸乳杆菌的生长,促进率达48.30%。“那格列奈―嗜酸乳杆菌组合”培养液上清中共注释到584种已知代谢物,其中差异代谢物有42个,主要富集在氨基酸代谢和生物合成、氨酰t-RNA生物合成和次生代谢产物生物合成等代谢通路上;同时,那格列奈还促进了嗜酸乳杆菌生物膜的形成以及增加了生物膜的黏附性,并上调细菌素合成结构基因的表达（t = 2.373,P = 0.033）。

糖尿病药物对乳杆菌生长普遍具有抑制作用,但那格列奈可通过调节氨基酸代谢和生物合成、促进生物膜的分泌和细菌素的生物合成来刺激嗜酸乳杆菌的生长。

     

呼吸窘迫综合征新生儿肠道菌群的改变

探究呼吸窘迫综合征新生儿肠道菌群的改变,为该类患儿的治疗提供参考。

选取我院2020年4月至2022年4月收治的83例呼吸窘迫综合征新生儿作为试验组,另选我院同期健康新生儿83例作为对照组,收集两组对象粪便标本。对比两组对象肠道菌群的变化情况。

与对照组相比,试验组患儿肠道菌群Chaol指数和Shannon指数显著降低,Ace指数显著升高,差异均有统计学意义（均P＜0.05）。两组对象肠道厚壁菌门、变形菌门、链球菌属相对丰度对比差异均有统计学意义（均P＜0.05）。

呼吸窘迫综合征新生儿肠道菌群改变较大。

     

肠道微生物与首发抑郁症的关系分析

分析肠道微生物与首发抑郁症的关系。

选取本院92例首发抑郁症患者纳入抑郁症组, 并取同期年龄、性别构成等匹配体检健康者50例作为对照组, 评估其24项汉密尔顿抑郁量表(HAMD-24)评分, 并于量表评估完成24 h内进行新鲜粪便的收集, 以PCR法定性分析16S rRNA V3-V4可变区, 并采用Pearson法分析菌群与HAMD-24评分的相关性。

两组菌群多样性指数(Ace、Chao、Shannon、Simpson)比较差异无统计学意义(P > 0.05);主坐标分析(PCoA)显示两组肠道微生物群落构成有差异。LEfSe结果显示, 首发抑郁症患者以拟杆菌门、β-变形菌纲、产碱菌科、幽门螺杆菌和伯克菌目等肠道微生物为主; 对照组优势菌主要包括厚壁菌门、乳酸杆菌目和双歧杆菌科等。抑郁症组厚壁菌门、放线菌门、柔壁菌门、Ruminococcus、Subdoligranulum、Enterobacter、Coprococcus、Bifidobacterium、Lactobacillus丰度明显低于对照组(P < 0.05), 拟杆菌门、Klebsiella、Flavonifractor、Bacteroides丰度明显高于对照组(P < 0.05)。HAMD-24评分与拟杆菌门、Flavonifractor、Bacteroides呈正相关(P < 0.05), 与厚壁菌门、放线菌门、柔壁菌门、Ruminococcus、Subdoligranulum、Coprococcus、Lactobacillus呈负相关(P < 0.05)。

首发抑郁症患者肠道微生物α-多样性与正常人相似, 但β-多样性与菌群丰度发生了异常改变, 这些改变和首发抑郁症病情密切相关。

     

基于16S rRNA高通量测序技术分析福州地区慢传输型便秘患者肠道菌群的变化

运用16S rRNA高通量测序技术分析福州地区慢传输型便秘(STC)患者肠道菌群变化的特征。

纳入60例STC患者和健康志愿者20例, 留取新鲜粪便样本, 冰块运送至实验室并存放于-80度冰箱, 应用16S rRNA高通量测序技术, 分析各组肠道菌群的生物多样性与结构组成。

测序后共得到1 702 004 524条有效序列, 样本序列平均有效长度为414.1 bp, 总样本平均序列条数为2 127 505.7条。与对照组比较, STC患者肠道菌群丰度指数Ace指数、Chao指数和肠道菌群多样性指数Shannon指数下降(P < 0.05), 肠道菌群多样性指数Simpson指数显著升高(P < 0.05)。在门水平上, STC组以拟杆菌门、放线菌门为主, 正常对照组以厚壁菌门为主。在属水平上, STC组以拟杆菌属(Bacteroides)、肠杆菌科(Enterobacteriaceae)、丹毒杆菌属(Erysipelatoclostridium)、巨单胞菌属(Megamonas)为主, 正常对照组以乳酸杆菌属(Lactobacillus)、双歧杆菌属(Bifidobacterium)、布劳特菌属(Blautia)为主。

STC患者肠道菌群发生紊乱, 表现为丰度及多样性下降, 菌群结构发生改变, 可能与慢传输型便秘的发生发展有关。

     

Antimicrobial resistance in Campylobacter isolated from food animals and humans in northern Thailand

A study was conducted to determine the prevalence of Campylobacter with antimicrobial resistance from chickens, pigs, dairy cows, healthy farm workers, and children hospitalized with diarrhea in northern Thailand. Resistance was highest in pig samples and lowest in healthy farm workers. Resistance to fluoroquinolones and tetracycline was high in all study populations. The increased prevalence of resistant isolates from meat samples collected at markets, compared to isolates collected from animals on the farm or the slaughterhouse, suggests that contamination after carcasses leave the slaughterhouse is an important factor in the spread of resistant bacteria into the human food chain.     

Dissecting microbial communities and resistomes for interconnected humans,soil, and livestock

A debate is currently ongoing as to whether intensive livestock farms may constitute reservoirs of clinically relevant antimicrobial resistance (AMR), thus posing a threat to surrounding communities. Here, combining shotgun metagenome sequencing, machine learning (ML), and culture-based methods, we focused on a poultry farm and connected slaughterhouse in China, investigating the gut microbiome of livestock, workers and their households, and microbial communities in carcasses and soil. For both the microbiome and resistomes in this study, differences are observed across environments and hosts. However, at a finer scale, several similar clinically relevant antimicrobial resistance genes (ARGs) and similar associated mobile genetic elements were found in both human and broiler chicken samples. Next, we focused on Escherichia coli, an important indicator for the surveillance of AMR on the farm. Strains of E. coli were found intermixed between humans and chickens. We observed that several ARGs present in the chicken faecal resistome showed correlation to resistance/susceptibility profiles of E. coli isolates cultured from the same samples. Finally, by using environmental sensing these ARGs were found to be correlated to variations in environmental temperature and humidity. Our results show the importance of adopting a multi-domain and multi-scale approach when studying microbial communities and AMR in complex, interconnected environments.Subject terms: Metagenomics, Microbiome, Bacterial genetics, Bacterial infection, Infectious-disease diagnostics     

Changes in antimicrobial resistance in fecal bacteria associated with pig transit and holding times at slaughter plants.

Fecal coliforms, fecal streptococci, and antimicrobial resistance (AMR) associated with various pig transit and holding times were investigated at slaughter plants. Changes in the relative abundance of two biotypes of Streptococcus faecium were associated with transit and holding of pigs, although approximately 20% of the isolates were unidentified. The greatest variety of coliforms was isolated from porcine feces after short transit (2 h) or holding (3 h) times and was qualitatively similar to those from pigs on farms. Isolates from pigs with longer average transit or holding times were almost all Escherichia coli (four biotypes). Streptococcal resistance to most antimicrobial agents was significantly greater (P less than 0.05) in isolates from live pigs at slaughter plants than in those from pigs at farms and was apparent after a short transit time (2 h). Streptococci from pigs held an average of 15 h were less resistant to most antimicrobial agents than those from pigs held 3 or 43 h. When compared with short transit times, moderate transit times (6 h) were associated with significantly decreased (P less than 0.05) coliform resistance and decreased resistance transfer but a greater diversity of AMR patterns. Holding pigs overnight (14 h) was associated with lowered coliform resistance to several antimicrobial agents, compared with the resistance of isolates from pigs held 3 or 39 h. A substantial increase (18 to 48%) in the ability to transfer streptomycin resistance was demonstrated in coliforms from pigs held 39 h, when compared with those from pigs held 3 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Interactions between commensal bacteria and viral infection: insights for viral disease control in farmed animals

Viral diseases cause serious economic loss in farmed animals industry. However, the efficacy of remedies for viral infection in farmed animals is limited, and treatment strategies are generally lacking for aquatic animals. Interactions of commensal microbiota and viral infection have been studied in recent years, demonstrating a third player in the interaction between hosts and viruses. Here, we discuss recent developments in the research of interactions between commensal bacteria and viral infection,including both promotion and inhibition effect of commensal bacteria on viral pathogenesis, as well as the impact of viral infection on commensal microbiota. The antiviral effect of commensal bacteria is mostly achieved through priming or regulation of the host immune responses, involving differential microbial components and host signaling pathways, and gives rise to various antiviral probiotics. Moreover, we summarize studies related to the interaction between commensal bacteria and viral infection in farmed animals, including pigs, chickens, fish and invertebrate species. Further studies in this area will deepen our understanding of antiviral immunity of farmed animals in the context of commensal microbiota, and promote the development of novel strategies for treatment of viral diseases in farmed animals.     

Prevalence and antimicrobial resistance in Salmonella enterica isolated from broiler chickens,pigs and meat products in Thailand–Cambodia border provinces

This study aimed to examine the prevalence and antimicrobial resistance (AMR) of Salmonella isolates from broiler chickens, pigs and their associated meat products in the Thailand–Cambodia border provinces. A total of 941 samples were collected from pigs and broiler chickens at slaughter houses and from carcasses at local fresh markets in Sa Kaeo, Thailand (n = 554) and Banteay Meanchey, Cambodia (n = 387) in 2014 and 2015. From these samples, 345 Salmonella isolates were collected from Sa Keao (n = 145; 23%) and Banteay Meanchey (n = 200; 47%) and assayed for antimicrobial susceptibility, class 1 integrons and extended‐spectrum β‐lactamase (ESBL) genes. Serovars Typhimurium (29%) and Rissen (29%) were the most common serotypes found in Thai and Cambodian isolates, respectively. Multidrug resistance was detected in 34% and 52% of isolates from Sa Keao and Banteay Meanchey, respectively. The majority of the Thai isolates were resistant to ampicillin (72.4%), whereas most Cambodian isolates were resistant to sulfamethoxazole (71%). Eleven isolates from Sa Keao and 44 from Banteay Meanchey carried class 1 integrons comprising resistance gene cassettes. The most common gene cassette array was dfrA12‐aadA2 (61.1%). Six isolates were ESBL producers. The β‐lactamase genes found included bla_TEM‐1, bla_CTX‐M‐55 and bla_CMY‐2. Some of these class 1 integrons and ESBL genes were located on conjugative plasmid. In conclusion, multidrug‐resistant Salmonella are common in pigs, chickens and their products in the Thailand–Cambodia border provinces. Our findings indicate that class 1 integrons play a role in spread of AMR in the strains in this study.     

The prevalence of antibiotic resistance genes among Aeromonas species in aquatic environments

The global rise in antimicrobial resistance (AMR) among bacteria causing infectious diseases is well documented, and the associated risks for human health are well known. There is much less research on AMR with regard to environmental strains, both opportunistic and pathogenic ones. The genus Aeromonas is widely distributed in the environment and causes many variable diseases in fish and humans. Infections in humans are predominantly caused by Aeromonas veronii, A. hydrophila and A. caviae (A. punctata) in a form of bacteremia, gastroenteritis or even septicaemia in immunocompetent and immunocompromised individuals. Different groups of antibiotics are used in the treatment, but studies indicate that fluoroquinolones and cefotaxime are the most efficient. A disturbing consequence of antibiotic overuse is an increasing number of detection of various antibiotic resistance genes (ARG) within this genus. The water environment is one of the major modes of transmission of resistant bacteria from animals to humans, and, thus, the dissemination of antibiotic resistance genes, particularly those located in mobile genetic elements (MGE) occurs in such as plasmids and transposons. This review summarizes recently published information on the type, distribution, and transmission of ARG by MGE, widespread in Aeromonas strains living in various aquatic environments, including wastewater, natural water, aquaculture and urban drinking water. The data available indicate that the opportunistic pathogens like Aeromonas spp. might serve as important vectors of ARG for clinically relevant pathogens present in such bodies of water .     

Fecal carriage and shedding density of CTX-M extended-spectrum {beta}-lactamase-producing escherichia coli in cattle, chickens, and pigs: implications for environmental contamination and food production

The number and proportion of CTX-M positive Escherichia coli organisms were determined in feces from cattle, chickens, and pigs in the United Kingdom to provide a better understanding of the risk of the dissemination of extended-spectrum β-lactamase (ESBL) bacteria to humans from food animal sources. Samples of bovine (n = 35) and swine (n = 20) feces were collected from farms, and chicken cecal contents (n = 32) were collected from abattoirs. There was wide variation in the number of CTX-M-positive E. coli organisms detected; the median (range) CFU/g were 100 (100 × 10(6) to 1 × 10(6)), 5,350 (100 × 10(6) to 3.1 × 10(6)), and 2,800 (100 × 10(5) to 4.7 × 10(5)) for cattle, chickens, and pigs, respectively. The percentages of E. coli isolates that were CTX-M positive also varied widely; median (range) values were 0.013% (0.001 to 1%) for cattle, 0.0197% (0.00001 to 28.18%) for chickens, and 0.121% (0.0002 to 5.88%) for pigs. The proportion of animals designated high-density shedders (≥1 × 10(4) CFU/g) of CTX-M E. coli was 3/35, 15/32, and 8/20 for cattle, chickens, and pigs, respectively. We postulate that high levels of CTX-M E. coli in feces facilitate the dissemination of bla(CTX-M) genes during the rearing of animals for food, and that the absolute numbers of CTX-M bacteria should be given greater consideration in epidemiological studies when assessing the risks of food-borne transmission.     

Metagenomic and network analysis reveal wide distribution and co-occurrence of environmental antibiotic resistance genes

A metagenomic approach and network analysis was used to investigate the wide-spectrum profiles of antibiotic resistance genes (ARGs) and their co-occurrence patterns in 50 samples from 10 typical environments. In total, 260 ARG subtypes belonging to 18 ARG types were detected with an abundance range of 5.4 × 10⁻⁶–2.2 × 10⁻¹ copy of ARG per copy of 16S-rRNA gene. The trend of the total ARG abundances in environments matched well with the levels of anthropogenic impacts on these environments. From the less impacted environments to the seriously impacted environments, the total ARG abundances increased up to three orders of magnitude, that is, from 3.2 × 10⁻³ to 3.1 × 10⁰ copy of ARG per copy of 16S-rRNA gene. The abundant ARGs were associated with aminoglycoside, bacitracin, β-lactam, chloramphenicol, macrolide-lincosamide-streptogramin, quinolone, sulphonamide and tetracycline, in agreement with the antibiotics extensively used in human medicine or veterinary medicine/promoters. The widespread occurrences and abundance variation trend of vancomycin resistance genes in different environments might imply the spread of vancomycin resistance genes because of the selective pressure resulting from vancomycin use. The simultaneous enrichment of 12 ARG types in adult chicken faeces suggests the coselection of multiple ARGs in this production system. Non-metric multidimensional scaling analysis revealed that samples belonging to the same environment generally possessed similar ARG compositions. Based on the co-occurrence pattern revealed by network analysis, tetM and aminoglycoside resistance protein, the hubs of the ARG network, are proposed to be indicators to quantitatively estimate the abundance of 23 other co-occurring ARG subtypes by power functions.     

Changes in antimicrobial resistance in fecal bacteria associated with pig transit and holding times at slaughter plants

Fecal coliforms, fecal streptococci, and antimicrobial resistance (AMR) associated with various pig transit and holding times were investigated at slaughter plants. Changes in the relative abundance of two biotypes of Streptococcus faecium were associated with transit and holding of pigs, although approximately 20% of the isolates were unidentified. The greatest variety of coliforms was isolated from porcine feces after short transit (2 h) or holding (3 h) times and was qualitatively similar to those from pigs on farms. Isolates from pigs with longer average transit or holding times were almost all Escherichia coli (four biotypes). Streptococcal resistance to most antimicrobial agents was significantly greater (P less than 0.05) in isolates from live pigs at slaughter plants than in those from pigs at farms and was apparent after a short transit time (2 h). Streptococci from pigs held an average of 15 h were less resistant to most antimicrobial agents than those from pigs held 3 or 43 h. When compared with short transit times, moderate transit times (6 h) were associated with significantly decreased (P less than 0.05) coliform resistance and decreased resistance transfer but a greater diversity of AMR patterns. Holding pigs overnight (14 h) was associated with lowered coliform resistance to several antimicrobial agents, compared with the resistance of isolates from pigs held 3 or 39 h. A substantial increase (18 to 48%) in the ability to transfer streptomycin resistance was demonstrated in coliforms from pigs held 39 h, when compared with those from pigs held 3 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

禽畜养殖粪便中多重抗生素抗性细菌研究

通过对新乡地区8家养猪场和11家养鸡场饲喂抗生素情况的调研,发现头孢氨苄、阿莫西林、卡那霉素、庆大霉素等4种抗生素是该地区被普遍使用的兽药抗生素。通过多点取样法和微生物培养技术对3家养鸡场和3家养猪场不同养殖时期的粪便进行单一抗生素和多重抗生素抗性细菌的检测,结果表明养鸡场堆置1周的粪便中抗头孢氨苄的细菌比例最高,达到65.90%,对所研究的3种和4种抗生素同时抗性的比例高达8.60%—12.51%和9.73%,明显高于饲喂中药的对照养鸡场样本检测结果(0.02%—2.73%和0.12%)。养猪场堆置1周的粪便中检测到抗头孢氨苄的细菌比例也是最高,达到49.12%上,但养猪场粪便中多重抗生素抗性细菌的比例明显低于养鸡场。同时研究发现,在两种养殖场中,幼龄期粪便中检测到的多重抗性细菌比例明显高于成熟期粪便,这可能与养殖过程中鸡、猪在幼龄期由于防病和促生长等因素而同时大剂量使用多种抗生素有关。