Disinfectant-induced ammonia oxidation disruption in microbial N-cycling process in aquatic ecosystem after the COVID-19 outbreak.

Disinfectant-induced ammonia oxidation disruption in microbial N-cycling process in aquatic ecosystem after the COVID-19 outbreak.

Publication date: Jul 01, 2024

Anthropogenic activities significantly impact the elemental cycles in aquatic ecosystems, with the N-cycling playing a critical role in potential nutrient turnover and substance cycling. We hypothesized that measures to prevent COVID-19 transmission profoundly altered the nitrogen cycle in riverine ecosystems. To investigate this, we re-analyzed metagenomic data and identified 60 N-cycling genes and 21 host metagenomes from four urban reaches (one upstream city, Wuhan, and two downstream cities) along the Yangtze River. Our analyses revealed a marked decrease in the abundance of bacterial ammonia monooxygenase genes, as well as in the host, ammonia-oxidizing autotrophic Nitrosomonas, followed by a substantial recovery post-pandemic. We posited that discharge of sodium hypochlorite (NaOCl) disinfectant may be a primary factor in the reduction of N-cycling process. To test this hypothesis, we exposed pure cultures of Nitrosomonas europaea to NaOCl to explore the microbial stress response. Results indicated that NaOCl exposure rapidly compromised the cell structure and inhibited ammonia oxidation of N. europaea, likely due to oxidative stress damage and reduced expression of nitrogen metabolism-related ammonia monooxygenase. Using the functional tagging technique, we determined that NaOCl directly destroyed the ammonia monooxygenase protein and DNA structure. This study highlights the negative impacts of chlorine disinfectants on the function of aquatic ecosystems and elucidates potential mechanisms of action.

Concepts Keywords
Cycling Ammonia
Host Ammonia
Monooxygenase Ammonia monooxygenase
Pandemic Chlorinated disinfectants
Riverine COVID-19
COVID-19
Disinfectants
Disinfectants
Ecosystem
Nitrogen Cycle
Nitrogen cycle
Nitrosomonas
Nitrosomonas europaea
Oxidation-Reduction
Rivers
SARS-CoV-2
Sodium Hypochlorite
Sodium Hypochlorite

Semantics

Type Source Name
disease IDO process
disease MESH COVID-19
drug DRUGBANK Nitrogen
disease IDO host
drug DRUGBANK Ammonia
disease IDO cell
disease MESH oxidative stress
pathway KEGG Nitrogen metabolism
drug DRUGBANK Chlorine

Original Article

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