MT969008.1

Detailed information

Microorganism
Candidatus Anammoximicrobium sp. clone HX10

Taxonomy
Phylum : Planctomycetes Class : Candidatus Brocadiae Order :Candidatus Brocadiales Family : Candidatus Brocadiaceae Genus : Candidatus Anammoximicrobium

Electron Acceptor
Sodium nitrite (NaNO₂^-)

Electron Donor
Ammonium ion

Information about Article
Reference:Huang and Lee. 2021 Title:Shortcut nitrification/denitrification through limited-oxygen supply with two extreme COD/N-and-ammonia active landfill leachates Pubmed ID:nan Pubmed link:Link Full research link:Link Abstract: Shortcut nitrification/denitrification (N/DN) was carried out through limited dissolved oxygen supply (DO, 0.5–0.8 mg/L) with active air-stripping treated (COD/N of 10.1 and 615.7 mg N/L ammonia) and raw leachate (COD/N of 2.2 and 3596.3 mg N/L ammonia). The reactor demonstrated robust performance, achieving maximum removal rates of 5.33 kg COD/m3/d and 1.2 kg N/m3/d under 0.6 mg/L DO supply. 16S rRNA gene amplicon sequencing analysis revealed that Nitrosomonas holding around 1.0% responded to ammonia oxidation, while nitrite oxidizing bacteria were suppressed. For the air-stripping treated leachate, abundant and diverse denitrifying populations (e.g. Paracoccus, Pseudomonas, Roseimaritima, and Thauera) were likely responding for total nitrogen (TN) and COD removal. Feeding the raw leachate, apart from heterotrophic denitrifiers contributing to auxiliary COD and TN removal, lithotrophic denitrifiers using sulfur and/or sulfide as electron donors were associated with sulphur reducing bacteria, suggesting that the changing of feeding strength propelled a remarkable shift of denitrifying populations. An unexpected observation was found that Candidatus Anammoximicrobium sp., previously reported in dilute wastewaters, proliferated and accounted for 0.63% whilst the reactor was fed with active raw leachate (rich in ammonia nitrogen and COD). Functional profiles prediction suggested that methyl compounds metabolization and aromatic compounds degradation might actively perform. This study validated that the shortcut N/DN could be achieved by a limited oxygen supply for high COD/N wastewaters (e.g., over 9) and leads to immediately beneficial to the treatment of relevant wastewaters.

Information about Article

Reference:Huang and Lee. 2021

Title:Shortcut nitrification/denitrification through limited-oxygen supply with two extreme COD/N-and-ammonia active landfill leachates

Pubmed ID:nan

Pubmed link:Link

Full research link:Link

Abstract: Shortcut nitrification/denitrification (N/DN) was carried out through limited dissolved oxygen supply (DO, 0.5–0.8 mg/L) with active air-stripping treated (COD/N of 10.1 and 615.7 mg N/L ammonia) and raw leachate (COD/N of 2.2 and 3596.3 mg N/L ammonia). The reactor demonstrated robust performance, achieving maximum removal rates of 5.33 kg COD/m3/d and 1.2 kg N/m3/d under 0.6 mg/L DO supply. 16S rRNA gene amplicon sequencing analysis revealed that Nitrosomonas holding around 1.0% responded to ammonia oxidation, while nitrite oxidizing bacteria were suppressed. For the air-stripping treated leachate, abundant and diverse denitrifying populations (e.g. Paracoccus, Pseudomonas, Roseimaritima, and Thauera) were likely responding for total nitrogen (TN) and COD removal. Feeding the raw leachate, apart from heterotrophic denitrifiers contributing to auxiliary COD and TN removal, lithotrophic denitrifiers using sulfur and/or sulfide as electron donors were associated with sulphur reducing bacteria, suggesting that the changing of feeding strength propelled a remarkable shift of denitrifying populations. An unexpected observation was found that Candidatus Anammoximicrobium sp., previously reported in dilute wastewaters, proliferated and accounted for 0.63% whilst the reactor was fed with active raw leachate (rich in ammonia nitrogen and COD). Functional profiles prediction suggested that methyl compounds metabolization and aromatic compounds degradation might actively perform. This study validated that the shortcut N/DN could be achieved by a limited oxygen supply for high COD/N wastewaters (e.g., over 9) and leads to immediately beneficial to the treatment of relevant wastewaters.

Biological Nitrogen Removal Database

A manually curated data resource for microbial nitrogen removal

Detailed information

Microorganism

Taxonomy

Electron Acceptor

Electron Donor

Information about Article

Biological Nitrogen Removal Database

Biological Nitrogen Removal Database

A manually curated data resource for microbial nitrogen removal

Detailed information

Microorganism

Taxonomy

Electron Acceptor

Electron Donor

Information about Article

Message

Biological Nitrogen Removal Database