Nitrification inhibitors effectively target N<sub>2</sub>O‐producing <i>Nitrosospira</i> spp. in tropical soil

Cassman, Noriko A.; Soares, Johnny R.; Pijl, Agata; Lourenço, Késia Silva; Veen, Johannes A. van; Cantarella, Heitor; Kuramae, Eiko E.

doi:10.1111/1462-2920.14557

Cited by 43 publications

(17 citation statements)

References 70 publications

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“…Soil Nitrosospira spp. have been shown to positively respond to urea and as well are associated with increased N 2 O emissions (Cassman et al, 2019 ).…”

Section: Discussionmentioning

confidence: 99%

Nitrification is a minor source of nitrous oxide (N₂O) in an agricultural landscape and declines with increasing management intensity

Liang

Robertson

2021

Global Change Biology

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Nitrous oxide (N 2 O) is a potent greenhouse gas with a 100-year global warming potential ~300 times higher than CO 2 , and has the third largest radiative forcing among the biogenic greenhouse gases (Myhre et al., 2013). N 2 O also depletes stratospheric ozone (Revell et al., 2012). Globally, soils are the dominant sources of both anthropogenic and natural emissions of N 2 O, with 1.7-4.8 Tg N 2 O-N year −1 emitted by agricultural soils and 3.3-9.0 Tg N 2 O-N year −1 from soils under natural vegetation (Ciais et al., 2013). Ammonia (NH 3 ) oxidation, the rate-limiting step of nitrification, is performed in soil mainly by aerobic ammonia-oxidizing bacteria

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“…Soil Nitrosospira spp. have been shown to positively respond to urea and as well are associated with increased N 2 O emissions (Cassman et al, 2019 ).…”

Section: Discussionmentioning

confidence: 99%

Nitrification is a minor source of nitrous oxide (N₂O) in an agricultural landscape and declines with increasing management intensity

Liang

Robertson

2021

Global Change Biology

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“…While microbial metabolism of metformin is considered to be the major source of guanylurea, it can also derive from other anthropogenic and natural sources. Guanylurea may also accumulate from the microbial degradation of cyanoguanidine (dicyanodiamide), a common fertilizer additive ( 21 , 22 ). Derivatives of guanylurea are utilized in the manufacture of flame retardants as well as propellants for energetic compounds and munitions ( 23 , 24 ).…”

Section: Introductionmentioning

confidence: 99%

Filling in the Gaps in Metformin Biodegradation: a New Enzyme and a Metabolic Pathway for Guanylurea

Tassoulas

Robinson

Martinez‐Vaz

et al. 2021

Appl Environ Microbiol

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The widely prescribed pharmaceutical metformin and its main metabolite guanylurea are currently two of the most common contaminants in surface and wastewater. Guanylurea often accumulates and is poorly, if at all, biodegraded in wastewater treatment plants. This study describes Pseudomonas mendocina strain GU isolated from a municipal wastewater treatment plant using guanylurea as its sole nitrogen source. The genome was sequenced with 36-fold coverage and mined to identify guanylurea degradation genes. The gene encoding the enzyme initiating guanylurea metabolism was expressed, the enzyme purified and characterized. Guanylurea hydrolase, a newly described enzyme, was shown to transform guanylurea to one equivalent of ammonia and guanidine. Guanidine also supports growth as a sole nitrogen source. Cell yields from growth on limiting concentrations of guanylurea revealed that metabolism releases all four nitrogen atoms. Genes encoding complete metabolic transformation were identified bioinformatically, defining the pathway as follows: guanylurea to guanidine to carboxyguanidine to allophanate to ammonia and carbon dioxide. The first enzyme, guanylurea hydrolase, is a member of the isochorismatase-like hydrolase protein family that includes biuret hydrolase and triuret hydrolase. Although homologs, the three enzymes show distinct substrate specificities. Pairwise sequence comparisons and the use of sequence similarity networks allowed fine structure discrimination between the three homologous enzymes and provided insights into the evolutionary origins of guanylurea hydrolase. IMPORTANCE Metformin is a pharmaceutical most prescribed for type 2 diabetes and is now being examined for potential benefits to COVID-19 patients. People taking the drug pass it largely unchanged and it subsequently enters wastewater treatment plants. Metformin has been known to be metabolized to guanylurea. The levels of guanylurea often exceed that of metformin, leading to the former being considered a “dead end” metabolite. Metformin and guanylurea are water pollutants of emerging concern as they persist to reach non-target aquatic life and humans, the latter if it remains in treated water. The present study has identified a Pseudomonas mendocina strain that completely degrades guanylurea. The genome was sequenced and the genes involved in guanylurea metabolism were identified in three widely separated genomic regions. This knowledge advances the idea that guanylurea is not a dead end product and will allow for bioinformatic identification of the relevant genes in wastewater treatment plant microbiomes and other environments subjected to metagenomic sequencing.

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“…Considerando que os microrganismos do solo são os principais agentes das transformações do N na interface solo-planta-atmosfera, compreender a ecologia dos microrganismos responsáveis pelos principais processos relacionados à perda do N no sistema é de grande importância para o avanço do uso eficiente do N na agricultura (CASSMAN et al, 2019;RIGOTTO et al, 2020).…”

Section: Influências Antropogênicas No Ciclo Do Nitrogêniounclassified

“…Os microrganismos do solo e as interações que ocorrem entre si e com os compartimentos planta e atmosfera atuam na ciclagem do carbono, fósforo, nitrogênio, entre outros elementos, que, quando em equilíbrio ecológico, favorecem a fertilidade do solo e a sustentabilidade dos sistemas agrícolas SIQUEIRA, 2006). Tendo em vista a importância do N para os sistemas naturais e agrícolas, o conhecimento da composição da comunidade microbiana e dos processos que regulam a distribuição das formas de N no solo tem potencial para subsidiar ações mitigadoras sobre as perdas deste nutriente no ambiente (CASSMAN et al, 2019). A nova forma de explorar abundância e composição microbianas por meio de sequências de DNA esclarece como as comunidades microbianas atuam no regulamento dos diversos processos biogeoquímicos e como alterações nessas comunidades afetam as atividades em que estão envolvidas (NELSON; MARTINY; MARTINY, 2016;WANG et al, 2018).…”

Section: O Papel Da Comunidade Microbiana Do Solo No Ciclo Do Nunclassified

“…Uma vez que a presença de comunidades associadas à nitrificação implica na emissão de N2O quando em condições favoráveis de nitrificação, tal como sob o aumento do conteúdo de N pela aplicação de fertilizantes (DI et al, 2010;MEINHARDT et al, 2018;PROSSER et al, 2020), mesmo que correlações entre o gene amoA, de bactérias e arqueias e as concentrações de amônio no solo não sejam observadas (CASSMAN et al, 2019).…”

Section: Resposta Dos Microrganismos Nitrificadores à Mudança Do Uso De Solo E Fertilizaçãounclassified

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Efeitos da conversão pastagem-canavial e da intensificação do sistema de pastagem na microbiota do solo associada ao ciclo do nitrogênio

Morais¹

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Nitrification inhibitors effectively target N₂O‐producing Nitrosospira spp. in tropical soil

Cited by 43 publications

References 70 publications

Nitrification is a minor source of nitrous oxide (N₂O) in an agricultural landscape and declines with increasing management intensity

Nitrification is a minor source of nitrous oxide (N₂O) in an agricultural landscape and declines with increasing management intensity

Filling in the Gaps in Metformin Biodegradation: a New Enzyme and a Metabolic Pathway for Guanylurea

Efeitos da conversão pastagem-canavial e da intensificação do sistema de pastagem na microbiota do solo associada ao ciclo do nitrogênio

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Nitrification inhibitors effectively target N2O‐producing Nitrosospira spp. in tropical soil

Cited by 43 publications

References 70 publications

Nitrification is a minor source of nitrous oxide (N2O) in an agricultural landscape and declines with increasing management intensity

Nitrification is a minor source of nitrous oxide (N2O) in an agricultural landscape and declines with increasing management intensity

Filling in the Gaps in Metformin Biodegradation: a New Enzyme and a Metabolic Pathway for Guanylurea

Efeitos da conversão pastagem-canavial e da intensificação do sistema de pastagem na microbiota do solo associada ao ciclo do nitrogênio

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Nitrification inhibitors effectively target N₂O‐producing Nitrosospira spp. in tropical soil

Nitrification is a minor source of nitrous oxide (N₂O) in an agricultural landscape and declines with increasing management intensity

Nitrification is a minor source of nitrous oxide (N₂O) in an agricultural landscape and declines with increasing management intensity