SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2765624449> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W2765624449 endingPage "138" @default.
W2765624449 startingPage "131" @default.
W2765624449 abstract "Abstract The biodegradation of pollutants in soil is limited by the availability of terminal electron acceptors required to support microbial respiration. Microbial Electroremediating Cells (MERCs) consist of a variety of bioelectrochemical devices that aim to overcome electron acceptor limitation and maximize the biodegradation of pollutants in the environment. This electrode-based method to stimulate the oxidative metabolism of environmental microbial populations is referred to as bioelectroventing . The current research uses MERCs principles, under different configurations, for stimulating native soil bacteria to achieve the complete removal of the herbicide isoproturon (IPU). Our studies conclude that the application of a high anodic potential (+600 mV versus Ag/AgCl) to contaminated soils increases, not only IPU-removal, but also leads to an effective clean-up as demonstrated by soil ecotoxicological analysis after treatment. Furthermore, electrode potential differences induced taxonomical shifts in the microbial community as exposed by the high-throughput sequencing analysis. We also used microbial community diversity as reporter of the electrode's influence. Our results showed that the electrode impacted the communities as far as 0.5 cm away. The data provided here is evidence that polarized electrodes are a cost-effective and environmentally friendly strategy to select microbial communities for the successfully bioremediation of isoproturon-polluted soils." @default.
W2765624449 created "2017-11-10" @default.
W2765624449 creator A5028740664 @default.
W2765624449 creator A5035541079 @default.
W2765624449 creator A5041049086 @default.
W2765624449 creator A5065710196 @default.
W2765624449 creator A5081940228 @default.
W2765624449 date "2018-01-01" @default.
W2765624449 modified "2023-10-18" @default.
W2765624449 title "Anodic shifting of the microbial community profile to enhance oxidative metabolism in soil" @default.
W2765624449 cites W1075339989 @default.
W2765624449 cites W1933461146 @default.
W2765624449 cites W1956083967 @default.
W2765624449 cites W1970377394 @default.
W2765624449 cites W1972228329 @default.
W2765624449 cites W1972891215 @default.
W2765624449 cites W1973342192 @default.
W2765624449 cites W1974897870 @default.
W2765624449 cites W1977487099 @default.
W2765624449 cites W1986005816 @default.
W2765624449 cites W1986287353 @default.
W2765624449 cites W1994955374 @default.
W2765624449 cites W1995621994 @default.
W2765624449 cites W2002063268 @default.
W2765624449 cites W2006670436 @default.
W2765624449 cites W2016984453 @default.
W2765624449 cites W2034075136 @default.
W2765624449 cites W2037840325 @default.
W2765624449 cites W2040938627 @default.
W2765624449 cites W2042934951 @default.
W2765624449 cites W2043575718 @default.
W2765624449 cites W2045656966 @default.
W2765624449 cites W2051638851 @default.
W2765624449 cites W2051863335 @default.
W2765624449 cites W2052653068 @default.
W2765624449 cites W2055497774 @default.
W2765624449 cites W2056905750 @default.
W2765624449 cites W2058204078 @default.
W2765624449 cites W2066345262 @default.
W2765624449 cites W2066600562 @default.
W2765624449 cites W2069146791 @default.
W2765624449 cites W2069441678 @default.
W2765624449 cites W2070037555 @default.
W2765624449 cites W2071430420 @default.
W2765624449 cites W2090182752 @default.
W2765624449 cites W2091118788 @default.
W2765624449 cites W2092515234 @default.
W2765624449 cites W2092553960 @default.
W2765624449 cites W2097370731 @default.
W2765624449 cites W2099434312 @default.
W2765624449 cites W2104252496 @default.
W2765624449 cites W2110936000 @default.
W2765624449 cites W2114250298 @default.
W2765624449 cites W2116574739 @default.
W2765624449 cites W2116973330 @default.
W2765624449 cites W2117575231 @default.
W2765624449 cites W2131476028 @default.
W2765624449 cites W2137911056 @default.
W2765624449 cites W2139952973 @default.
W2765624449 cites W2141359146 @default.
W2765624449 cites W2143619804 @default.
W2765624449 cites W2159634508 @default.
W2765624449 cites W2290587437 @default.
W2765624449 cites W2297320367 @default.
W2765624449 cites W2488258695 @default.
W2765624449 cites W266896737 @default.
W2765624449 doi "https://doi.org/10.1016/j.soilbio.2017.09.012" @default.
W2765624449 hasPublicationYear "2018" @default.
W2765624449 type Work @default.
W2765624449 sameAs 2765624449 @default.
W2765624449 citedByCount "22" @default.
W2765624449 countsByYear W27656244492018 @default.
W2765624449 countsByYear W27656244492019 @default.
W2765624449 countsByYear W27656244492020 @default.
W2765624449 countsByYear W27656244492021 @default.
W2765624449 countsByYear W27656244492022 @default.
W2765624449 countsByYear W27656244492023 @default.
W2765624449 crossrefType "journal-article" @default.
W2765624449 hasAuthorship W2765624449A5028740664 @default.
W2765624449 hasAuthorship W2765624449A5035541079 @default.
W2765624449 hasAuthorship W2765624449A5041049086 @default.
W2765624449 hasAuthorship W2765624449A5065710196 @default.
W2765624449 hasAuthorship W2765624449A5081940228 @default.
W2765624449 hasConcept C101014631 @default.
W2765624449 hasConcept C107872376 @default.
W2765624449 hasConcept C147789679 @default.
W2765624449 hasConcept C159390177 @default.
W2765624449 hasConcept C159750122 @default.
W2765624449 hasConcept C165337572 @default.
W2765624449 hasConcept C17525397 @default.
W2765624449 hasConcept C185592680 @default.
W2765624449 hasConcept C18903297 @default.
W2765624449 hasConcept C2994198108 @default.
W2765624449 hasConcept C39432304 @default.
W2765624449 hasConcept C523546767 @default.
W2765624449 hasConcept C54355233 @default.
W2765624449 hasConcept C55493867 @default.
W2765624449 hasConcept C57600042 @default.