SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2988593844> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W2988593844 endingPage "115268" @default.
W2988593844 startingPage "115268" @default.
W2988593844 abstract "The discovery of the complete ammonia oxidizing (comammox) bacteria overturns the traditional two-organism nitrification paradigm which largely underpins the design and operation of nitrogen removal during wastewater treatment. Quantifying the abundance, diversity, and activity of comammox bacteria in wastewater treatment systems is important for ensuring a clear understanding of the nitrogen biotransformations responsible for ammonia removal. To this end, we conducted a yearlong survey of 14 full-scale nitrogen removal systems including mainstream conventional and simultaneous nitrification-denitrification and side-stream partial nitrification-anammox systems with varying process configurations. Metagenomics and genome-resolved metagenomics identified comammox bacteria in mainstream conventional and simultaneous nitrification-denitrification systems, with no evidence for their presence in side-stream partial nitrification-anammox systems. Further, comammox bacterial diversity was restricted to clade A and these clade A comammox bacteria were detected in systems with long solids retention times (>10 days) and/or in the attached growth phase. Using a newly designed qPCR assay targeting the amoB gene of clade A comammox bacteria in combination with quantitation of other canonical nitrifiers, we show that long solids retention time is the key process parameter associated with the prevalence and abundance of comammox bacteria. The increase in comammox bacterial abundance was not associated with concomitant decrease in the abundance of canonical nitrifiers; however, systems with comammox bacteria showed significantly better and temporally stable ammonia removal compared to systems where they were not detected. Finally, in contrast to recent studies, we do not find any significant association of comammox bacterial prevalence and abundance with dissolved oxygen concentrations in this study." @default.
W2988593844 created "2019-11-22" @default.
W2988593844 creator A5001255806 @default.
W2988593844 creator A5005050441 @default.
W2988593844 creator A5012412964 @default.
W2988593844 creator A5015823062 @default.
W2988593844 creator A5017990522 @default.
W2988593844 creator A5022527385 @default.
W2988593844 creator A5024007316 @default.
W2988593844 creator A5025535554 @default.
W2988593844 creator A5040956091 @default.
W2988593844 creator A5049049507 @default.
W2988593844 creator A5068832495 @default.
W2988593844 creator A5080614714 @default.
W2988593844 date "2020-02-01" @default.
W2988593844 modified "2023-10-10" @default.
W2988593844 title "Long solids retention times and attached growth phase favor prevalence of comammox bacteria in nitrogen removal systems" @default.
W2988593844 cites W1584790813 @default.
W2988593844 cites W1764149807 @default.
W2988593844 cites W1845784301 @default.
W2988593844 cites W1878020421 @default.
W2988593844 cites W1958058086 @default.
W2988593844 cites W1989937096 @default.
W2988593844 cites W1990635958 @default.
W2988593844 cites W2010680821 @default.
W2988593844 cites W2023324972 @default.
W2988593844 cites W2031611770 @default.
W2988593844 cites W2034285706 @default.
W2988593844 cites W2045204781 @default.
W2988593844 cites W2055043387 @default.
W2988593844 cites W2062760400 @default.
W2988593844 cites W2080283023 @default.
W2988593844 cites W2088671540 @default.
W2988593844 cites W2098612608 @default.
W2988593844 cites W2108234281 @default.
W2988593844 cites W2110256992 @default.
W2988593844 cites W2112364185 @default.
W2988593844 cites W2114576684 @default.
W2988593844 cites W2115888213 @default.
W2988593844 cites W2117058964 @default.
W2988593844 cites W2120902911 @default.
W2988593844 cites W2125230147 @default.
W2988593844 cites W2125846972 @default.
W2988593844 cites W2129506790 @default.
W2988593844 cites W2131271579 @default.
W2988593844 cites W2132926880 @default.
W2988593844 cites W2138122982 @default.
W2988593844 cites W2141052558 @default.
W2988593844 cites W2141557839 @default.
W2988593844 cites W2143485490 @default.
W2988593844 cites W2151350595 @default.
W2988593844 cites W2152885278 @default.
W2988593844 cites W2153137490 @default.
W2988593844 cites W2155704095 @default.
W2988593844 cites W2158451567 @default.
W2988593844 cites W2165715909 @default.
W2988593844 cites W2170551349 @default.
W2988593844 cites W2175951962 @default.
W2988593844 cites W2179653678 @default.
W2988593844 cites W2310373123 @default.
W2988593844 cites W2345185424 @default.
W2988593844 cites W2350038733 @default.
W2988593844 cites W2409623764 @default.
W2988593844 cites W2418014268 @default.
W2988593844 cites W2537488842 @default.
W2988593844 cites W2599417231 @default.
W2988593844 cites W2600404541 @default.
W2988593844 cites W2747182905 @default.
W2988593844 cites W2753961085 @default.
W2988593844 cites W2761245490 @default.
W2988593844 cites W2766563043 @default.
W2988593844 cites W2771939226 @default.
W2988593844 cites W2778487718 @default.
W2988593844 cites W2784624716 @default.
W2988593844 cites W2793660486 @default.
W2988593844 cites W2863731766 @default.
W2988593844 cites W2889019390 @default.
W2988593844 cites W2891109175 @default.
W2988593844 cites W2896787165 @default.
W2988593844 cites W2941534427 @default.
W2988593844 cites W2944548763 @default.
W2988593844 cites W2946692217 @default.
W2988593844 cites W2949552567 @default.
W2988593844 cites W2950635704 @default.
W2988593844 cites W2950682748 @default.
W2988593844 cites W2951254987 @default.
W2988593844 cites W2952167528 @default.
W2988593844 cites W2952648421 @default.
W2988593844 cites W2952737462 @default.
W2988593844 cites W2962348711 @default.
W2988593844 cites W4247053599 @default.
W2988593844 doi "https://doi.org/10.1016/j.watres.2019.115268" @default.
W2988593844 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31726394" @default.
W2988593844 hasPublicationYear "2020" @default.
W2988593844 type Work @default.
W2988593844 sameAs 2988593844 @default.
W2988593844 citedByCount "84" @default.
W2988593844 countsByYear W29885938442019 @default.