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W2912513784 endingPage "1182" @default.
W2912513784 startingPage "1170" @default.
W2912513784 abstract "Abstract Notwithstanding the fundamental role that environmental microbes play for ecosystem functioning, data on how microbes react to disturbances are still scarce, and most factors that confer stability to microbial communities are unknown. In this context, antibiotic discharge into the environment is considered a worldwide threat for ecosystems with potential risks to human health. We therefore tested resilience of microbial communities challenged by the presence of an antibiotic. In a continuous culture experiment, we compared the abundance, composition and diversity of microbial communities undisturbed or disturbed by the constant addiction of tetracycline in low (10 µg/L) or intermediate (100 µg/L) concentration (press disturbance). Further, the bacterial communities in the three treatments had to face the sudden pulse disturbance of adding an allochthonous bacterium ( Escherichia coli ). Tetracycline, even at low concentrations, affected microbial communities by changing their phylogenetic composition and causing cell aggregation. This, however, did not coincide with a reduced microbial diversity, but was mainly caused by a shift in dominance of specific bacterial families. Moreover, the less disturbed community (10 µg/L tetracycline) was sometimes more similar to the control and sometimes more similar to heavily disturbed community (100 µg/L tetracycline). All in all, we could not see a pattern where the communities disturbed with antibiotics were less resilient to a second disturbance introducing E. coli, but they seemed to be able to buffer the input of the allochthonous strain in a similar manner as the control." @default.
W2912513784 created "2019-02-21" @default.
W2912513784 creator A5008260726 @default.
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W2912513784 creator A5057651058 @default.
W2912513784 creator A5083698355 @default.
W2912513784 date "2019-03-01" @default.
W2912513784 modified "2023-10-15" @default.
W2912513784 title "Antibiotic disturbance affects aquatic microbial community composition and food web interactions but not community resilience" @default.
W2912513784 cites W1507397684 @default.
W2912513784 cites W1512538917 @default.
W2912513784 cites W1559504687 @default.
W2912513784 cites W1576816316 @default.
W2912513784 cites W1580156547 @default.
W2912513784 cites W1587190204 @default.
W2912513784 cites W1679497138 @default.
W2912513784 cites W1968105193 @default.
W2912513784 cites W1968378666 @default.
W2912513784 cites W1972767119 @default.
W2912513784 cites W1973760744 @default.
W2912513784 cites W1976323986 @default.
W2912513784 cites W1980431730 @default.
W2912513784 cites W1985453091 @default.
W2912513784 cites W1988328031 @default.
W2912513784 cites W1989854862 @default.
W2912513784 cites W1993542823 @default.
W2912513784 cites W1994163352 @default.
W2912513784 cites W2006194212 @default.
W2912513784 cites W2006730689 @default.
W2912513784 cites W2008604278 @default.
W2912513784 cites W2011303397 @default.
W2912513784 cites W2016418907 @default.
W2912513784 cites W2033461047 @default.
W2912513784 cites W2037091685 @default.
W2912513784 cites W2038561408 @default.
W2912513784 cites W2051948723 @default.
W2912513784 cites W2063717443 @default.
W2912513784 cites W2066389584 @default.
W2912513784 cites W2067775653 @default.
W2912513784 cites W2069093058 @default.
W2912513784 cites W2081468475 @default.
W2912513784 cites W2091922579 @default.
W2912513784 cites W2094961020 @default.
W2912513784 cites W2095690429 @default.
W2912513784 cites W2095713067 @default.
W2912513784 cites W2098412350 @default.
W2912513784 cites W2103242178 @default.
W2912513784 cites W2108902748 @default.
W2912513784 cites W2114766231 @default.
W2912513784 cites W2117457769 @default.
W2912513784 cites W2117687223 @default.
W2912513784 cites W2117750673 @default.
W2912513784 cites W2118816493 @default.
W2912513784 cites W2119530622 @default.
W2912513784 cites W2121385215 @default.
W2912513784 cites W2124351063 @default.
W2912513784 cites W2125603952 @default.
W2912513784 cites W2126862456 @default.
W2912513784 cites W2131340600 @default.
W2912513784 cites W2135403073 @default.
W2912513784 cites W2136142647 @default.
W2912513784 cites W2137439980 @default.
W2912513784 cites W2138433276 @default.
W2912513784 cites W2140245753 @default.
W2912513784 cites W2143261292 @default.
W2912513784 cites W2146512944 @default.
W2912513784 cites W2149049530 @default.
W2912513784 cites W2154026962 @default.
W2912513784 cites W2155927856 @default.
W2912513784 cites W2156475459 @default.
W2912513784 cites W2159186854 @default.
W2912513784 cites W2161163382 @default.
W2912513784 cites W2162653670 @default.
W2912513784 cites W2181194274 @default.
W2912513784 cites W2290007038 @default.
W2912513784 cites W2358459712 @default.
W2912513784 cites W2401324198 @default.
W2912513784 cites W2468945174 @default.
W2912513784 cites W2491349507 @default.
W2912513784 cites W2510722856 @default.
W2912513784 cites W2530690919 @default.
W2912513784 cites W2604761724 @default.
W2912513784 cites W2605330094 @default.
W2912513784 cites W2772154363 @default.
W2912513784 cites W2774486220 @default.
W2912513784 cites W2887535412 @default.
W2912513784 cites W2911964244 @default.
W2912513784 cites W4230096730 @default.
W2912513784 cites W581570429 @default.
W2912513784 doi "https://doi.org/10.1111/mec.15033" @default.
W2912513784 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30697889" @default.
W2912513784 hasPublicationYear "2019" @default.
W2912513784 type Work @default.