SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2001990452> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2001990452 endingPage "353" @default.
W2001990452 startingPage "346" @default.
W2001990452 abstract "Accelerated degradation of organic chemicals by aquatic plant-bacterial associations was reported for the first time with elucidation of the role and contribution of aquatic plant and bacteria in its rhizosphere using a fast-growing giant duckweed, Spirodela polyrrhiza. The results clearly showed the accelerated degradation of all the three aromatic compounds (phenol, aniline and 2,4-dichlorophenol [2,4-DCP]) tested by aquatic plant-bacterial associations. In phenol degradation system, phenol-degrading bacteria indigenous to the rhizosphere fraction of S. polyrrhiza mainly contributed, while in aniline degradation system S. polyrrhiza mainly contributed by stimulating aniline-degrading bacteria both in the rhizosphere and balk water fraction. On the other hand in 2,4-DCP degradation system, S. polyrrhiza itself mainly contributed to its removal by uptake and degradation. Thus, the mechanisms for accelerated removal of aromatic compounds were quite different depending on the substrates. S. polyrrhiza showed selective accumulation of phenol-degrading bacteria in its rhizosphere fraction, while aniline- and 2,4-DCP-degrading bacteria were not much accumulated. S. polyrrhiza secreted peroxidase and laccase. However, both of the enzymatic activities increased with the addition of aromatic compounds, degrading ability of S. polyrrhiza itself should be owing to the production of peroxidase rather than laccase because the change of peroxidase activity and concentration of each aromatic compound well concurred. From the results obtained in the present study, it can be concluded that the feasibility of the use of aquatic plant-bacterial associations to accelerate the degradation of organic chemicals especially recalcitrant compounds in aquatic environment was shown." @default.
W2001990452 created "2016-06-24" @default.
W2001990452 creator A5029174306 @default.
W2001990452 creator A5030130510 @default.
W2001990452 creator A5032384329 @default.
W2001990452 creator A5061739218 @default.
W2001990452 creator A5086825273 @default.
W2001990452 creator A5087654156 @default.
W2001990452 date "2006-04-01" @default.
W2001990452 modified "2023-10-15" @default.
W2001990452 title "Accelerated aromatic compounds degradation in aquatic environment by use of interaction between Spirodela polyrrhiza and bacteria in its rhizosphere" @default.
W2001990452 cites W1485713018 @default.
W2001990452 cites W1512955633 @default.
W2001990452 cites W1919292491 @default.
W2001990452 cites W1967437583 @default.
W2001990452 cites W1968935190 @default.
W2001990452 cites W1975049848 @default.
W2001990452 cites W1980090141 @default.
W2001990452 cites W1983393009 @default.
W2001990452 cites W1994609749 @default.
W2001990452 cites W2007367065 @default.
W2001990452 cites W2015765401 @default.
W2001990452 cites W2017820247 @default.
W2001990452 cites W2026563404 @default.
W2001990452 cites W2030313757 @default.
W2001990452 cites W2032719209 @default.
W2001990452 cites W2039655080 @default.
W2001990452 cites W2041399442 @default.
W2001990452 cites W2046170071 @default.
W2001990452 cites W2049098946 @default.
W2001990452 cites W2050554718 @default.
W2001990452 cites W2052883454 @default.
W2001990452 cites W2058896051 @default.
W2001990452 cites W2058899819 @default.
W2001990452 cites W2064402080 @default.
W2001990452 cites W2065552642 @default.
W2001990452 cites W2074473093 @default.
W2001990452 cites W2076657986 @default.
W2001990452 cites W2078205128 @default.
W2001990452 cites W2079340452 @default.
W2001990452 cites W2083305342 @default.
W2001990452 cites W2089819766 @default.
W2001990452 cites W2101229112 @default.
W2001990452 cites W2114820147 @default.
W2001990452 cites W2146477624 @default.
W2001990452 cites W2159156324 @default.
W2001990452 cites W256504383 @default.
W2001990452 cites W32014611 @default.
W2001990452 cites W63649537 @default.
W2001990452 doi "https://doi.org/10.1263/jbb.101.346" @default.
W2001990452 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16716944" @default.
W2001990452 hasPublicationYear "2006" @default.
W2001990452 type Work @default.
W2001990452 sameAs 2001990452 @default.
W2001990452 citedByCount "62" @default.
W2001990452 countsByYear W20019904522012 @default.
W2001990452 countsByYear W20019904522013 @default.
W2001990452 countsByYear W20019904522014 @default.
W2001990452 countsByYear W20019904522015 @default.
W2001990452 countsByYear W20019904522016 @default.
W2001990452 countsByYear W20019904522017 @default.
W2001990452 countsByYear W20019904522018 @default.
W2001990452 countsByYear W20019904522019 @default.
W2001990452 countsByYear W20019904522020 @default.
W2001990452 countsByYear W20019904522021 @default.
W2001990452 countsByYear W20019904522022 @default.
W2001990452 countsByYear W20019904522023 @default.
W2001990452 crossrefType "journal-article" @default.
W2001990452 hasAuthorship W2001990452A5029174306 @default.
W2001990452 hasAuthorship W2001990452A5030130510 @default.
W2001990452 hasAuthorship W2001990452A5032384329 @default.
W2001990452 hasAuthorship W2001990452A5061739218 @default.
W2001990452 hasAuthorship W2001990452A5086825273 @default.
W2001990452 hasAuthorship W2001990452A5087654156 @default.
W2001990452 hasBestOaLocation W20019904522 @default.
W2001990452 hasConcept C107872376 @default.
W2001990452 hasConcept C157021035 @default.
W2001990452 hasConcept C162008176 @default.
W2001990452 hasConcept C175605896 @default.
W2001990452 hasConcept C178790620 @default.
W2001990452 hasConcept C181199279 @default.
W2001990452 hasConcept C185592680 @default.
W2001990452 hasConcept C196222841 @default.
W2001990452 hasConcept C2777702071 @default.
W2001990452 hasConcept C2777728882 @default.
W2001990452 hasConcept C2779244968 @default.
W2001990452 hasConcept C2779679103 @default.
W2001990452 hasConcept C41008148 @default.
W2001990452 hasConcept C523546767 @default.
W2001990452 hasConcept C54355233 @default.
W2001990452 hasConcept C55493867 @default.
W2001990452 hasConcept C59822182 @default.
W2001990452 hasConcept C76155785 @default.
W2001990452 hasConcept C86626682 @default.
W2001990452 hasConcept C86803240 @default.
W2001990452 hasConceptScore W2001990452C107872376 @default.
W2001990452 hasConceptScore W2001990452C157021035 @default.
W2001990452 hasConceptScore W2001990452C162008176 @default.