SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313313085> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4313313085 endingPage "130655" @default.
W4313313085 startingPage "130655" @default.
W4313313085 abstract "The effects of humic acids (HA) and fulvic acids (FA) on the fate of Cd in anaerobic environment upon microbial reduction of Cd-bearing ferrihydrite (Fh) with Geobacter metallireducens were investigated. The results showed that HA and FA could promote the reductive dissolution of Fh and the formation of vivianite. After incubation of 38 d, vivianite accounted for 47.19%, 59.22%, and 48.53% of total Fe in biological control batch (BCK), HA and FA batches (C/Fe molar ratio of 1.0), respectively, by Mössbauer spectroscopy analysis. In terms of Cd, HA and FA could promote the release of adsorbed Cd during the initial bioreduction process, but reassuringly, after 38 d the dissolved Cd with HA and FA addition batches were 0.58-0.91 and 0.99-1.08 times of the BCK, respectively. The proportions of residual Cd in HA batches were higher than FA and BCK batches, indicating that HA was better than FA in immobilizing Cd. This might be because the quinone groups in HA could act as electron shuttle. This study showed that HA facilitated the transformation of vivianite better than FA, and Cd can be stabilized by resorption or co-precipitation with vivianite, providing a theoretical support for the translocation of Cd in sediment-water interface." @default.
W4313313085 created "2023-01-06" @default.
W4313313085 creator A5028079436 @default.
W4313313085 creator A5030037812 @default.
W4313313085 creator A5033543738 @default.
W4313313085 creator A5035139556 @default.
W4313313085 creator A5054590740 @default.
W4313313085 creator A5074795897 @default.
W4313313085 creator A5078645868 @default.
W4313313085 creator A5088912327 @default.
W4313313085 date "2023-03-01" @default.
W4313313085 modified "2023-10-01" @default.
W4313313085 title "Humic acid and fulvic acid facilitate the formation of vivianite and the transformation of cadmium via microbially-mediated iron reduction" @default.
W4313313085 cites W1452302918 @default.
W4313313085 cites W1963635460 @default.
W4313313085 cites W1978114564 @default.
W4313313085 cites W1980689384 @default.
W4313313085 cites W1992323416 @default.
W4313313085 cites W2000692132 @default.
W4313313085 cites W2008992088 @default.
W4313313085 cites W2028492105 @default.
W4313313085 cites W2042533040 @default.
W4313313085 cites W2045553992 @default.
W4313313085 cites W2085580697 @default.
W4313313085 cites W2095087635 @default.
W4313313085 cites W2128034254 @default.
W4313313085 cites W2130865595 @default.
W4313313085 cites W2137171441 @default.
W4313313085 cites W2149602337 @default.
W4313313085 cites W2185495559 @default.
W4313313085 cites W2198018373 @default.
W4313313085 cites W2285565807 @default.
W4313313085 cites W2308522790 @default.
W4313313085 cites W2315647024 @default.
W4313313085 cites W2322116336 @default.
W4313313085 cites W2514271380 @default.
W4313313085 cites W2517389972 @default.
W4313313085 cites W2529765895 @default.
W4313313085 cites W2593519599 @default.
W4313313085 cites W2616144396 @default.
W4313313085 cites W2802191066 @default.
W4313313085 cites W2803182776 @default.
W4313313085 cites W2890787862 @default.
W4313313085 cites W2900175063 @default.
W4313313085 cites W2908013302 @default.
W4313313085 cites W2913719881 @default.
W4313313085 cites W2934453134 @default.
W4313313085 cites W2945519236 @default.
W4313313085 cites W2963545765 @default.
W4313313085 cites W2981044987 @default.
W4313313085 cites W2981170983 @default.
W4313313085 cites W2998920656 @default.
W4313313085 cites W2999711233 @default.
W4313313085 cites W3015406878 @default.
W4313313085 cites W3021553488 @default.
W4313313085 cites W3024944096 @default.
W4313313085 cites W3041365819 @default.
W4313313085 cites W3045877052 @default.
W4313313085 cites W3048211646 @default.
W4313313085 cites W3088413847 @default.
W4313313085 cites W3088920415 @default.
W4313313085 cites W3097191220 @default.
W4313313085 cites W3130865075 @default.
W4313313085 cites W3161436322 @default.
W4313313085 cites W3180178440 @default.
W4313313085 cites W3202593469 @default.
W4313313085 cites W4207033720 @default.
W4313313085 cites W4210411227 @default.
W4313313085 cites W4224232288 @default.
W4313313085 cites W4281556197 @default.
W4313313085 cites W4283740789 @default.
W4313313085 cites W4283785457 @default.
W4313313085 cites W4290702897 @default.
W4313313085 cites W4296311561 @default.
W4313313085 doi "https://doi.org/10.1016/j.jhazmat.2022.130655" @default.
W4313313085 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36580773" @default.
W4313313085 hasPublicationYear "2023" @default.
W4313313085 type Work @default.
W4313313085 citedByCount "4" @default.
W4313313085 countsByYear W43133130852023 @default.
W4313313085 crossrefType "journal-article" @default.
W4313313085 hasAuthorship W4313313085A5028079436 @default.
W4313313085 hasAuthorship W4313313085A5030037812 @default.
W4313313085 hasAuthorship W4313313085A5033543738 @default.
W4313313085 hasAuthorship W4313313085A5035139556 @default.
W4313313085 hasAuthorship W4313313085A5054590740 @default.
W4313313085 hasAuthorship W4313313085A5074795897 @default.
W4313313085 hasAuthorship W4313313085A5078645868 @default.
W4313313085 hasAuthorship W4313313085A5088912327 @default.
W4313313085 hasConcept C107872376 @default.
W4313313085 hasConcept C13965031 @default.
W4313313085 hasConcept C150394285 @default.
W4313313085 hasConcept C178790620 @default.
W4313313085 hasConcept C185592680 @default.
W4313313085 hasConcept C2776062086 @default.
W4313313085 hasConcept C2780191927 @default.
W4313313085 hasConcept C2780560099 @default.
W4313313085 hasConcept C2780965034 @default.