Evidence of increasing antibiotic resistance gene abundances in archived soils since 1940.
about
Antibiotic resistance is prevalent in an isolated cave microbiomePyrosequencing of antibiotic-contaminated river sediments reveals high levels of resistance and gene transfer elementsReady for a world without antibiotics? The Pensières Antibiotic Resistance Call to Action.Dissemination of Antimicrobial Resistance in Microbial Ecosystems through Horizontal Gene TransferInsights into novel antimicrobial compounds and antibiotic resistance genes from soil metagenomesPharmaceuticals and personal care products in the environment: what are the big questions?Learning from agriculture: understanding low-dose antimicrobials as drivers of resistome expansionTracking Change: A Look at the Ecological Footprint of Antibiotics and Antimicrobial ResistanceReview of Antimicrobial Resistance in the Environment and Its Relevance to Environmental RegulatorsAntibiotic resistance in the wild: an eco-evolutionary perspectiveThe structure and diversity of human, animal and environmental resistomesFunctional characterization of bacteria isolated from ancient arctic soil exposes diverse resistance mechanisms to modern antibioticsAntibiotic resistance gene abundances correlate with metal and geochemical conditions in archived Scottish soilsAssessing the ecotoxicologic hazards of a pandemic influenza medical responseAntibiotic Resistance and the Biology of HistorySafely coupling livestock and crop production systems: how rapidly do antibiotic resistance genes dissipate in soil following a commercial application of swine or dairy manure?Emergence and spread of antibiotic resistance: setting a parameter space.Integrons: past, present, and future.Effects of Swine manure on macrolide, lincosamide, and streptogramin B antimicrobial resistance in soils.Bacterial phylogeny structures soil resistomes across habitats.Influence of soil use on prevalence of tetracycline, streptomycin, and erythromycin resistance and associated resistance genes.Antibiotic resistance and the environment--there and back again: Science & Society series on Science and DrugsAntibiotic resistance gene abundances associated with waste discharges to the Almendares River near Havana, CubaNatural microbial communities supporting the transfer of the IncP-1β plasmid pB10 exhibit a higher initial content of plasmids from the same incompatibility group.Ciprofloxacin residues in municipal biosolid compost do not selectively enrich populations of resistant bacteria.Diversity, distribution and quantification of antibiotic resistance genes in goat and lamb slaughterhouse surfaces and meat products.Accumulation of sulfonamide resistance genes in arable soils due to repeated application of manure containing sulfadiazine.Exploring the immediate and long-term impact on bacterial communities in soil amended with animal and urban organic waste fertilizers using pyrosequencing and screening for horizontal transfer of antibiotic resistance.Public health evolutionary biology of antimicrobial resistance: priorities for interventionDoes the Recent Growth of Aquaculture Create Antibiotic Resistance Threats Different from those Associated with Land Animal Production in Agriculture?Fate of antibiotic resistant bacteria and genes during wastewater chlorination: implication for antibiotic resistance control.Detection and diversity evaluation of tetracycline resistance genes in grassland-based production systems in Colombia, South america.Using the class 1 integron-integrase gene as a proxy for anthropogenic pollutionBottlenecks in the transferability of antibiotic resistance from natural ecosystems to human bacterial pathogens.Combinational effects of sulfomethoxazole and copper on soil microbial community and function.Housefly Larva Vermicomposting Efficiently Attenuates Antibiotic Resistance Genes in Swine Manure, with Concomitant Bacterial Population Changes.Increased levels of multiresistant bacteria and resistance genes after wastewater treatment and their dissemination into lake geneva, SwitzerlandThe Tetracycline Destructases: A Novel Family of Tetracycline-Inactivating Enzymes.Appearance of β-lactam Resistance Genes in Agricultural Soils and Clinical Isolates over the 20th Century.Diversity of integron- and culture-associated antibiotic resistance genes in freshwater floc.
P2860
Q21089884-2E783A8D-34C4-46BD-A215-F9DEA2776503Q21135543-3B9087FB-709B-49D5-9EE6-7CB55EFEA046Q21195823-35635294-5048-4844-8331-64A8D94DDCA6Q26765870-A6BB8E4F-B990-4D05-A4C5-E307C498B37EQ26824017-CB2CF1C5-0840-48EC-8754-73BE99E35E28Q26859139-6CA42761-F22B-45A2-BD84-9067532E905DQ27002632-6A476767-9BA8-4489-AC16-201B0227917FQ27007076-A5DF080F-6002-417A-966E-25EA133D0293Q28067678-7716EA85-495E-4A49-BD82-44EED1B91986Q28075650-7C50578C-E525-4D7B-A2A0-137ED6C97D63Q28391185-BDA60905-C31A-4B2C-8CF8-94BF11B293E3Q28651559-16283100-84ED-457C-B7D4-BE2986EC9BAFQ28742957-76A27CD9-862C-4473-91F4-CD189B103D7AQ30400339-920EC25E-EB8C-4BF3-8F0E-E0E927647F86Q33562465-4655B909-96B7-45E3-BCA5-0CFEF5A58588Q33602016-EFB61504-43DF-422A-854B-F5BF73073DFAQ33667581-1540F5EB-1B0D-416E-A53F-78950A43ED62Q33743517-E9514BE0-DD6B-4BAC-81BF-DD69E97F5B1CQ33768374-EAD72C6D-028A-4D51-AF99-3E6668D04A8DQ33837847-31943DA7-6EFB-4258-9BB4-1105ACE33960Q34243333-0EC1F757-C6C3-4B2E-AA14-290D8A356FF9Q34338530-625793D4-FCED-424C-953D-9ADFEEF558B2Q34505354-3A9DC189-9896-45EA-8A1B-933DF7A12AE3Q34562922-E150704E-A83D-4F25-9EB9-5E85FB0CA195Q34595387-EFBDF5FA-541A-428F-916F-E616218504B3Q34640672-B75A0AED-5312-48A7-9C9A-535C1727A34EQ34739256-01E2D8F4-76C2-413B-8489-0E618BD216C5Q35217945-71CF0E9D-CA04-40D0-B198-51C3035EF0CDQ35236703-139BA180-DB56-436C-A9AB-010A7D8A5CD9Q35529139-EB733549-20A2-4561-8CE2-966BF51971BCQ35571465-F12D0AA9-6E12-4F48-B1D5-BC3144C42454Q35611177-3F945DA0-E3B6-4902-810A-5E0C9C457F59Q35626365-B23EA830-78B1-4E88-B688-BD81373B4A14Q35646654-F0C76D68-16D8-4D29-BEB6-78F175F6BC58Q35677758-7B7EBFBE-4DDB-4D5A-AA5E-AA3601B65F07Q35752698-69688197-9FAB-433D-B063-387620C5B58CQ35846274-FF6683EF-D3E6-42C4-A6F3-B061716E47AEQ35889287-72AD150E-02EC-4092-B05E-FED7F05339FCQ35924144-69CF80BF-B219-43A5-AB5C-32CD747A96AEQ36017977-73017100-D28C-41FA-AFA0-654765CF71A9
P2860
Evidence of increasing antibiotic resistance gene abundances in archived soils since 1940.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Evidence of increasing antibio ...... in archived soils since 1940.
@ast
Evidence of increasing antibio ...... in archived soils since 1940.
@en
Evidence of increasing antibio ...... in archived soils since 1940.
@nl
type
label
Evidence of increasing antibio ...... in archived soils since 1940.
@ast
Evidence of increasing antibio ...... in archived soils since 1940.
@en
Evidence of increasing antibio ...... in archived soils since 1940.
@nl
prefLabel
Evidence of increasing antibio ...... in archived soils since 1940.
@ast
Evidence of increasing antibio ...... in archived soils since 1940.
@en
Evidence of increasing antibio ...... in archived soils since 1940.
@nl
P50
P356
P1476
Evidence of increasing antibio ...... in archived soils since 1940.
@en
P2093
Phillip A I Ehlert
P304
P356
10.1021/ES901221X
P407
P577
2010-01-01T00:00:00Z