Presence of Arcobacter spp. in environmental waters correlates with high levels of fecal pollution
about
First multi-locus sequence typing scheme for Arcobacter sppSmall changes in pH have direct effects on marine bacterial community composition: a microcosm approachDetection of Arcobacter spp. in Mytilus galloprovincialis Samples Collected from Apulia RegionBioaccumulation experiments in mussels contaminated with the food-borne pathogen Arcobacter butzleri: preliminary data for risk assessment.Taxonomy, epidemiology, and clinical relevance of the genus ArcobacterNew perspectives in monitoring drinking water microbial quality.Diversity and population structure of sewage-derived microorganisms in wastewater treatment plant influent.Molecular characterization of putative biocorroding microbiota with a novel niche detection of Epsilon- and Zetaproteobacteria in Pacific Ocean coastal seawaters.Rapid bacterial colonization of low-density polyethylene microplastics in coastal sediment microcosms.Sources and distribution of surface water fecal contamination and prevalence of schistosomiasis in a Brazilian village.Population dynamics and ecology of Arcobacter in sewage.Performance of five molecular methods for monitoring Arcobacter spp.Arcobacter: comparison of isolation methods, diversity, and potential pathogenic factors in commercially retailed chicken breast meat from Costa Rica.A severe case of persistent diarrhoea associated with Arcobacter cryaerophilus but attributed to Campylobacter sp. and a review of the clinical incidence of Arcobacter sppModified isolation method of Arcobacter spp. from different environmental and food samples.Bacterial pathogens and community composition in advanced sewage treatment systems revealed by metagenomics analysis based on high-throughput sequencingArcobacter in Lake Erie beach waters: an emerging gastrointestinal pathogen linked with human-associated fecal contamination.Seagrass ecosystems reduce exposure to bacterial pathogens of humans, fishes, and invertebrates.Insights in the pathogenesis and resistance of Arcobacter: A review.Global Distribution and Prevalence of Arcobacter in Food and Water.Arcobacter butzleri isolates exhibit pathogenic potential in intestinal epithelial cell models.Isolation and Identification of Arcobacter Species from Costa Rican Poultry Production and Retail Sources.Arcobacter: an emerging food-borne zoonotic pathogen, its public health concerns and advances in diagnosis and control - a comprehensive review.Genetic diversity of Arcobacter isolated from bivalves of Adriatic and their interactions with Mytilus galloprovincialis hemocytes.Evaluation of the microbiological quality of reclaimed water produced from a lagooning system.Arcobacter spp. isolated from untreated domestic effluent.Bacterial community composition of an urban river in the North West Province, South Africa, in relation to physico-chemical water quality.High prevalence of arcobacter carriage in older subjects with type 2 diabetesIsolation and Identification of Arcobacter spp. by Multiplex PCR from Water Sources in Kars Region.Accumulation and expression of multiple antibiotic resistance genes in Arcobacter cryaerophilus that thrives in sewage.Updated 16S rRNA-RFLP method for the identification of all currently characterised Arcobacter spp.First isolation report of Arcobacter cryaerophilus from a human diarrhea sample in Costa Rica.Comparative isolation and genetic diversity of Arcobacter sp. from fish and the coastal environment.Isolation and identification of Arcobacter species from environmental and drinking water samples.Detection of Arcobacter in feces of healthy chickens in Osogbo, Nigeria.EMA and EFSA Joint Scientific Opinion on measures to reduce the need to use antimicrobial agents in animal husbandry in the European Union, and the resulting impacts on food safety (RONAFA)Antimicrobial susceptibility testing of Arcobacter butzleri: development and application of a new protocol for broth microdilution.A Polyphasic and Taxogenomic Evaluation Uncovers Arcobacter cryaerophilus as a Species Complex That Embraces Four Genomovars.Prevalence and diversity of waterborne Arcobacter butzleri in southwestern Alberta, Canada.Prevalence of arcobacter species in drinking water, spring water, and raw milk as determined by multiplex PCR.
P2860
Q21263047-248E7924-21E8-4477-B90E-022B8DE91DC6Q28727185-C9ECE83B-03CC-479C-8AC0-575FE8398B36Q28821232-F5404CB1-D63E-4231-B912-8E9FD3C48343Q30671937-D77D7955-22E7-453D-B5DA-0F537766D66EQ33793080-A05B0BF2-C3FF-4EC1-B378-A3ACECC7FFD9Q33819655-60D9A6F7-DC9F-4DDA-B6C8-4D9E7F5EA2CAQ33843648-BA433FD9-F10E-4B7C-B861-4210648B171BQ34032487-7051F076-0099-4F8B-8806-D32AFDC1F12AQ34255985-4EFCA275-FC61-4D25-9190-622D74792D4AQ34281772-C6A8CC0B-B391-40BC-AD9A-F8C50F8F8EC1Q34471425-73ABE479-D999-4DAE-ABA3-C7648DA1F4B3Q35007209-13530C17-B4B3-4C99-80CC-49F0942D0FACQ35172718-DE0A4936-F434-4F63-B297-64F39B880822Q35376810-A93A7196-571D-4EEB-AF09-AD8AF4CEB601Q35614647-452D98A3-6F19-412A-B363-93245D3E6B88Q35621482-A52D639E-2020-418B-AEDE-F410A534DB54Q36120158-C6B83856-E35B-48B8-9440-0CBC57C7105AQ36283659-DF60AE8F-8F2B-4851-8E08-9602F60F824FQ38390226-675C9C47-C465-4651-AAD2-37F2B3C033F0Q38546752-CC9272D9-F19F-46EA-B353-448A3E15948CQ38826695-C6EF2085-8202-43DF-9F82-4DCDB45F2DA9Q38892943-2F1749EB-86FA-40FE-ADC9-AD0D45AFFA18Q39259119-E300DD9B-F962-40EA-A7F5-B7417D649722Q39369102-8FA33D52-3D07-4B30-AD5D-4E5491545C94Q39755199-49F7E9DF-3E33-4408-A845-D80E90EBE346Q40179945-03A125C0-AC78-4E70-9B02-FAD3C63FBBB7Q40332515-5FB15D12-EAE0-4C72-BDCE-5CC524917414Q40703177-86F78AE7-5246-48C3-B530-D2717FCD10C3Q41090053-7D94CF3E-5382-4585-ADF1-F85D43378160Q42052967-071DE740-FF0F-4D72-88EB-485F085F9CC6Q42135498-DF66159E-0348-4F52-BF66-31074D537D0BQ43167702-6E756934-03F7-4ACD-ABCF-4D99999E2D73Q46386802-6FCBCFFE-4606-4441-B053-F7327DE10F41Q46559495-928016D6-4CA9-4B5D-B239-001D4E99DB00Q46665183-1C290B25-9A41-450D-A2B7-1EF604B0267CQ47158624-094C7828-74ED-49E4-8A9E-609964BF0BBAQ50221905-0C5F2AA9-3A0E-4815-A6D4-A97EF786B6F9Q54213256-7A62D0BC-A726-4989-A649-8CA2F68B8F74Q54343777-241D14B7-25E6-48F1-AD06-4C758D56BEF2Q54393519-F8BEBF03-FE1E-4EE1-884D-3F5FFECFD217
P2860
Presence of Arcobacter spp. in environmental waters correlates with high levels of fecal pollution
description
im Januar 2008 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2008
@uk
name
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@en
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@nl
type
label
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@en
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@nl
prefLabel
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@en
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@nl
P1476
Presence of Arcobacter spp. in ...... high levels of fecal pollution
@en
P2093
Isabel Inza
Luis Collado
P2860
P304
P356
10.1111/J.1462-2920.2007.01555.X
P577
2008-01-21T00:00:00Z