SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4378981504> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W4378981504 endingPage "121948" @default.
W4378981504 startingPage "121948" @default.
W4378981504 abstract "Selenium oxyanions are released into environments by natural and anthropogenic activities and are present in agricultural and glass manufacturing wastewater in several locations worldwide. Excessive amounts of this metalloid have adverse effects on the health of living organisms. Halophilic and halotolerant microorganisms were selected for selenium oxyanions remediation due to presence of significant amount of salt in selenium-containing wastewater. Effects of aeration, carbon sources, competitive electron acceptors, and reductase inhibitors were investigated on SeO32− bio-removal. Additionally, NO3−-containing wastewater were exploited to investigate SeO32− remediation in synthetic agricultural effluents. The results showed that the SeO32− removal extent is maximum in aerobic conditions with succinate as a carbon source. SO42− and PO43− do not significantly interfere with SeO32− reduction, while WO42− and TeO32− decrease the SeO32− removal percentage (up to 35 and 37%, respectively). Furthermore, NO3− had an adverse effect on SeO32− biotransformation by our consortia. All consortia reduced SeO32− in synthetic agricultural wastewaters with a 45–53% removal within 120 h. This study suggests that consortia of halophilic/halotolerant bacteria and yeasts could be applied to treat SeO32--contaminated drainage water. In addition, sulphates, and phosphates do not interfere with selenite bioreduction by these consortia, which makes them suitable candidates for the bioremediation of selenium-containing wastewater." @default.
W4378981504 created "2023-06-02" @default.
W4378981504 creator A5033960336 @default.
W4378981504 creator A5054838572 @default.
W4378981504 creator A5073430653 @default.
W4378981504 creator A5076324446 @default.
W4378981504 date "2023-08-01" @default.
W4378981504 modified "2023-09-25" @default.
W4378981504 title "Selenite bioreduction by a consortium of halophilic/halotolerant bacteria and/or yeasts in saline media" @default.
W4378981504 cites W1491882213 @default.
W4378981504 cites W1629989778 @default.
W4378981504 cites W1834965369 @default.
W4378981504 cites W1963667536 @default.
W4378981504 cites W1967225494 @default.
W4378981504 cites W1972685787 @default.
W4378981504 cites W1975139583 @default.
W4378981504 cites W1978261657 @default.
W4378981504 cites W1983786433 @default.
W4378981504 cites W1986845037 @default.
W4378981504 cites W2003065100 @default.
W4378981504 cites W2005905636 @default.
W4378981504 cites W2013499237 @default.
W4378981504 cites W2014101523 @default.
W4378981504 cites W2015083406 @default.
W4378981504 cites W2015162597 @default.
W4378981504 cites W2018693482 @default.
W4378981504 cites W2021914431 @default.
W4378981504 cites W2022133066 @default.
W4378981504 cites W2022590052 @default.
W4378981504 cites W2022873026 @default.
W4378981504 cites W2027292876 @default.
W4378981504 cites W2032783160 @default.
W4378981504 cites W2033929467 @default.
W4378981504 cites W2046185052 @default.
W4378981504 cites W2050560087 @default.
W4378981504 cites W2051813990 @default.
W4378981504 cites W2053683445 @default.
W4378981504 cites W2062898856 @default.
W4378981504 cites W2075898790 @default.
W4378981504 cites W2076638684 @default.
W4378981504 cites W2078876702 @default.
W4378981504 cites W2093815036 @default.
W4378981504 cites W2097287580 @default.
W4378981504 cites W2100710542 @default.
W4378981504 cites W2111654944 @default.
W4378981504 cites W2129319061 @default.
W4378981504 cites W2130103547 @default.
W4378981504 cites W2151510413 @default.
W4378981504 cites W2153129937 @default.
W4378981504 cites W2159480438 @default.
W4378981504 cites W2160947915 @default.
W4378981504 cites W2231043561 @default.
W4378981504 cites W2233348700 @default.
W4378981504 cites W2270791768 @default.
W4378981504 cites W2272424542 @default.
W4378981504 cites W2274971540 @default.
W4378981504 cites W2340804479 @default.
W4378981504 cites W2397833088 @default.
W4378981504 cites W2415721751 @default.
W4378981504 cites W2420736174 @default.
W4378981504 cites W253084441 @default.
W4378981504 cites W2553313899 @default.
W4378981504 cites W2598026680 @default.
W4378981504 cites W2616063118 @default.
W4378981504 cites W2751039168 @default.
W4378981504 cites W2766999306 @default.
W4378981504 cites W2768480562 @default.
W4378981504 cites W2769273462 @default.
W4378981504 cites W2770875272 @default.
W4378981504 cites W2774148710 @default.
W4378981504 cites W2782376994 @default.
W4378981504 cites W2788085458 @default.
W4378981504 cites W2870370866 @default.
W4378981504 cites W2888307536 @default.
W4378981504 cites W2914019201 @default.
W4378981504 cites W2922884137 @default.
W4378981504 cites W2924949745 @default.
W4378981504 cites W2942276139 @default.
W4378981504 cites W2974161708 @default.
W4378981504 cites W3032942346 @default.
W4378981504 cites W3110274453 @default.
W4378981504 cites W3139188410 @default.
W4378981504 cites W3166034110 @default.
W4378981504 cites W4200289186 @default.
W4378981504 cites W4223655607 @default.
W4378981504 cites W4226296329 @default.
W4378981504 cites W4306920559 @default.
W4378981504 cites W4317746075 @default.
W4378981504 cites W4361267983 @default.
W4378981504 cites W4853874 @default.
W4378981504 doi "https://doi.org/10.1016/j.envpol.2023.121948" @default.
W4378981504 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37270053" @default.
W4378981504 hasPublicationYear "2023" @default.
W4378981504 type Work @default.
W4378981504 citedByCount "0" @default.
W4378981504 crossrefType "journal-article" @default.
W4378981504 hasAuthorship W4378981504A5033960336 @default.
W4378981504 hasAuthorship W4378981504A5054838572 @default.