SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4384564797> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W4384564797 endingPage "165584" @default.
W4384564797 startingPage "165584" @default.
W4384564797 abstract "The applications of sulphate-reducing microorganisms (SRMs) in acid mine drainage (AMD) treatment systems have received extensive attention due to their ability to reduce sulphate and stabilize metal(loid)s. Despite great phylogenetic diversity of SRMs, only a few have been used in AMD treatment bioreactors. In situ enrichment could be an efficient approach to select new effective SRMs for AMD treatment. Here, we performed in situ enrichment of SRMs in highly stratified AMD sediment cores using different kinds of carbon source mixture. The dsrAB (dissimilatory sulfite reductase) genes affiliated with nine phyla (two archaeal and seven bacterial phyla) and 26 genera were enriched. Remarkably, those genes affiliated with Aciduliprofundum and Vulcanisaeta were enriched in situ in AMD-related environments for the first time, and their relative abundances were negatively correlated with pH. Furthermore, 107 dsrAB-containing metagenome-assembled genomes (MAGs) were recovered from metagenomic datasets, with 14 phyla (two archaeal and 12 bacterial phyla) and 15 genera. The relative abundances of MAGs were positively correlated with total carbon and sulphate contents. Our findings expanded the diversity of SRMs that can be enriched in AMD sediment, and revealed the physiochemical properties that might affect the growth of SRMs, which provided guidance for AMD treatment bioreators." @default.
W4384564797 created "2023-07-18" @default.
W4384564797 creator A5007191987 @default.
W4384564797 creator A5007672412 @default.
W4384564797 creator A5012532327 @default.
W4384564797 creator A5014253166 @default.
W4384564797 creator A5025752476 @default.
W4384564797 creator A5026482508 @default.
W4384564797 creator A5031874225 @default.
W4384564797 creator A5049024305 @default.
W4384564797 creator A5056869471 @default.
W4384564797 creator A5066576382 @default.
W4384564797 creator A5068908330 @default.
W4384564797 creator A5089003646 @default.
W4384564797 date "2023-11-01" @default.
W4384564797 modified "2023-10-17" @default.
W4384564797 title "In situ enrichment of sulphate-reducing microbial communities with different carbon sources stimulating the acid mine drainage sediments" @default.
W4384564797 cites W1500496508 @default.
W4384564797 cites W162328689 @default.
W4384564797 cites W1848716311 @default.
W4384564797 cites W1968648263 @default.
W4384564797 cites W1968839043 @default.
W4384564797 cites W1974800041 @default.
W4384564797 cites W1975327768 @default.
W4384564797 cites W1981580525 @default.
W4384564797 cites W1999674395 @default.
W4384564797 cites W2005000690 @default.
W4384564797 cites W2019190002 @default.
W4384564797 cites W2019311766 @default.
W4384564797 cites W2038743152 @default.
W4384564797 cites W2044438632 @default.
W4384564797 cites W2049032497 @default.
W4384564797 cites W2050662887 @default.
W4384564797 cites W2064381293 @default.
W4384564797 cites W2078476573 @default.
W4384564797 cites W2084983188 @default.
W4384564797 cites W2085931588 @default.
W4384564797 cites W2100667474 @default.
W4384564797 cites W2111373249 @default.
W4384564797 cites W2112364185 @default.
W4384564797 cites W2115888213 @default.
W4384564797 cites W2124629174 @default.
W4384564797 cites W2131538099 @default.
W4384564797 cites W2133870489 @default.
W4384564797 cites W2138214439 @default.
W4384564797 cites W2138430242 @default.
W4384564797 cites W2145662137 @default.
W4384564797 cites W2156736985 @default.
W4384564797 cites W2157889807 @default.
W4384564797 cites W2164693527 @default.
W4384564797 cites W2169454843 @default.
W4384564797 cites W222919112 @default.
W4384564797 cites W2289917418 @default.
W4384564797 cites W2307160227 @default.
W4384564797 cites W2508559213 @default.
W4384564797 cites W2526141653 @default.
W4384564797 cites W2588092400 @default.
W4384564797 cites W2604185760 @default.
W4384564797 cites W2789511815 @default.
W4384564797 cites W2791545717 @default.
W4384564797 cites W2793856982 @default.
W4384564797 cites W2794365814 @default.
W4384564797 cites W2799347341 @default.
W4384564797 cites W2888463045 @default.
W4384564797 cites W2899330617 @default.
W4384564797 cites W2901011486 @default.
W4384564797 cites W2911344221 @default.
W4384564797 cites W2912834130 @default.
W4384564797 cites W2913750806 @default.
W4384564797 cites W2922090998 @default.
W4384564797 cites W2924636055 @default.
W4384564797 cites W2938265871 @default.
W4384564797 cites W2953683313 @default.
W4384564797 cites W2967231237 @default.
W4384564797 cites W2995603923 @default.
W4384564797 cites W3008612307 @default.
W4384564797 cites W3011269049 @default.
W4384564797 cites W3012647466 @default.
W4384564797 cites W3048263831 @default.
W4384564797 cites W3083871073 @default.
W4384564797 cites W3093379790 @default.
W4384564797 cites W3128409512 @default.
W4384564797 cites W3186999666 @default.
W4384564797 cites W4255430913 @default.
W4384564797 doi "https://doi.org/10.1016/j.scitotenv.2023.165584" @default.
W4384564797 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37467988" @default.
W4384564797 hasPublicationYear "2023" @default.
W4384564797 type Work @default.
W4384564797 citedByCount "0" @default.
W4384564797 crossrefType "journal-article" @default.
W4384564797 hasAuthorship W4384564797A5007191987 @default.
W4384564797 hasAuthorship W4384564797A5007672412 @default.
W4384564797 hasAuthorship W4384564797A5012532327 @default.
W4384564797 hasAuthorship W4384564797A5014253166 @default.
W4384564797 hasAuthorship W4384564797A5025752476 @default.
W4384564797 hasAuthorship W4384564797A5026482508 @default.
W4384564797 hasAuthorship W4384564797A5031874225 @default.
W4384564797 hasAuthorship W4384564797A5049024305 @default.