SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1811512257> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W1811512257 endingPage "3877" @default.
W1811512257 startingPage "3869" @default.
W1811512257 abstract "ABSTRACT A culture-independent molecular phylogenetic approach was used to survey constituents of microbial communities associated with an aquifer contaminated with hydrocarbons (mainly jet fuel) and chlorinated solvents undergoing intrinsic bioremediation. Samples were obtained from three redox zones: methanogenic, methanogenic-sulfate reducing, and iron or sulfate reducing. Small-subunit rRNA genes were amplified directly from aquifer material DNA by PCR with universally conserved or Bacteria - or Archaea -specific primers and were cloned. A total of 812 clones were screened by restriction fragment length polymorphisms (RFLP), approximately 50% of which were unique. All RFLP types that occurred more than once in the libraries, as well as many of the unique types, were sequenced. A total of 104 (94 bacterial and 10 archaeal) sequence types were determined. Of the 94 bacterial sequence types, 10 have no phylogenetic association with known taxonomic divisions and are phylogenetically grouped in six novel division level groups (candidate divisions WS1 to WS6); 21 belong to four recently described candidate divisions with no cultivated representatives (OP5, OP8, OP10, and OP11); and 63 are phylogenetically associated with 10 well-recognized divisions. The physiology of two particularly abundant sequence types obtained from the methanogenic zone could be inferred from their phylogenetic association with groups of microorganisms with a consistent phenotype. One of these sequence types is associated with the genus Syntrophus ; Syntrophus spp. produce energy from the anaerobic oxidation of organic acids, with the production of acetate and hydrogen. The organism represented by the other sequence type is closely related to Methanosaeta spp., which are known to be capable of energy generation only through aceticlastic methanogenesis. We hypothesize, therefore, that the terminal step of hydrocarbon degradation in the methanogenic zone of the aquifer is aceticlastic methanogenesis and that the microorganisms represented by these two sequence types occur in syntrophic association." @default.
W1811512257 created "2016-06-24" @default.
W1811512257 creator A5032303659 @default.
W1811512257 creator A5044666280 @default.
W1811512257 creator A5050519489 @default.
W1811512257 creator A5054008444 @default.
W1811512257 date "1998-10-01" @default.
W1811512257 modified "2023-10-10" @default.
W1811512257 title "Microbial Diversity in a Hydrocarbon- and Chlorinated-Solvent-Contaminated Aquifer Undergoing Intrinsic Bioremediation" @default.
W1811512257 cites W1569041852 @default.
W1811512257 cites W1573139894 @default.
W1811512257 cites W1844186501 @default.
W1811512257 cites W1930908889 @default.
W1811512257 cites W1964038971 @default.
W1811512257 cites W1964628917 @default.
W1811512257 cites W2032678548 @default.
W1811512257 cites W2037346782 @default.
W1811512257 cites W2055043387 @default.
W1811512257 cites W2060374983 @default.
W1811512257 cites W2063937489 @default.
W1811512257 cites W2064359314 @default.
W1811512257 cites W2068687524 @default.
W1811512257 cites W2070300977 @default.
W1811512257 cites W2072812562 @default.
W1811512257 cites W2075716701 @default.
W1811512257 cites W2076773302 @default.
W1811512257 cites W2080582037 @default.
W1811512257 cites W2081411589 @default.
W1811512257 cites W2100124112 @default.
W1811512257 cites W2104200271 @default.
W1811512257 cites W2109213168 @default.
W1811512257 cites W2110511509 @default.
W1811512257 cites W2119867048 @default.
W1811512257 cites W2120643571 @default.
W1811512257 cites W2125498037 @default.
W1811512257 cites W2131988453 @default.
W1811512257 cites W2137856266 @default.
W1811512257 cites W2141073702 @default.
W1811512257 cites W2142735254 @default.
W1811512257 cites W2155365030 @default.
W1811512257 cites W2156465688 @default.
W1811512257 cites W2159512134 @default.
W1811512257 cites W2159748283 @default.
W1811512257 cites W2165102628 @default.
W1811512257 cites W2167571746 @default.
W1811512257 doi "https://doi.org/10.1128/aem.64.10.3869-3877.1998" @default.
W1811512257 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/106571" @default.
W1811512257 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/9758812" @default.
W1811512257 hasPublicationYear "1998" @default.
W1811512257 type Work @default.
W1811512257 sameAs 1811512257 @default.
W1811512257 citedByCount "710" @default.
W1811512257 countsByYear W18115122572012 @default.
W1811512257 countsByYear W18115122572013 @default.
W1811512257 countsByYear W18115122572014 @default.
W1811512257 countsByYear W18115122572015 @default.
W1811512257 countsByYear W18115122572016 @default.
W1811512257 countsByYear W18115122572017 @default.
W1811512257 countsByYear W18115122572018 @default.
W1811512257 countsByYear W18115122572019 @default.
W1811512257 countsByYear W18115122572020 @default.
W1811512257 countsByYear W18115122572021 @default.
W1811512257 countsByYear W18115122572022 @default.
W1811512257 countsByYear W18115122572023 @default.
W1811512257 crossrefType "journal-article" @default.
W1811512257 hasAuthorship W1811512257A5032303659 @default.
W1811512257 hasAuthorship W1811512257A5044666280 @default.
W1811512257 hasAuthorship W1811512257A5050519489 @default.
W1811512257 hasAuthorship W1811512257A5054008444 @default.
W1811512257 hasBestOaLocation W18115122571 @default.
W1811512257 hasConcept C104317684 @default.
W1811512257 hasConcept C193252679 @default.
W1811512257 hasConcept C2124996 @default.
W1811512257 hasConcept C523546767 @default.
W1811512257 hasConcept C54355233 @default.
W1811512257 hasConcept C550995028 @default.
W1811512257 hasConcept C86803240 @default.
W1811512257 hasConcept C98722961 @default.
W1811512257 hasConceptScore W1811512257C104317684 @default.
W1811512257 hasConceptScore W1811512257C193252679 @default.
W1811512257 hasConceptScore W1811512257C2124996 @default.
W1811512257 hasConceptScore W1811512257C523546767 @default.
W1811512257 hasConceptScore W1811512257C54355233 @default.
W1811512257 hasConceptScore W1811512257C550995028 @default.
W1811512257 hasConceptScore W1811512257C86803240 @default.
W1811512257 hasConceptScore W1811512257C98722961 @default.
W1811512257 hasIssue "10" @default.
W1811512257 hasLocation W18115122571 @default.
W1811512257 hasLocation W18115122572 @default.
W1811512257 hasLocation W18115122573 @default.
W1811512257 hasLocation W18115122574 @default.
W1811512257 hasOpenAccess W1811512257 @default.
W1811512257 hasPrimaryLocation W18115122571 @default.
W1811512257 hasRelatedWork W1966010362 @default.
W1811512257 hasRelatedWork W2012840471 @default.
W1811512257 hasRelatedWork W2014254156 @default.
W1811512257 hasRelatedWork W2682664874 @default.
W1811512257 hasRelatedWork W2796354594 @default.