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Effects of Ion Combinations and Their Concentrations on Denitrification Performance and Gene Expressions of an Aerobic Strain Marinobacter Hydrocarbonoclasticus RAD-2

Salinity is one of the most important factors affecting the nitrogen-removal efficiency of denitrifying bacteria. A series of different ion combinations and salinity gradients were carried out to clarify the effects of ion types and concentrations on nitrogen removal by halophilic aerobic denitrifyi...

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Published in:	Microorganisms (Basel) 2023-07, Vol.11 (8), p.1867
Main Authors:	Li, Junchi, Cai, Lei, Lu, Huifeng, Ma, Bin, Chen, Guangsuo, Kong, Dedong, Hu, Yiming, Ye, Ziran, Ruan, Yunjie
Format:	Article
Language:	English
Subjects:	aerobic denitrification Bacteria Bacteria, Aerobic Calcium ions Carbon Chemical properties Denitrification Denitrifying bacteria Efficiency Enzymes Gene expression Genes Genetic aspects Genomes Ion channels ion combinations Ions Magnesium Marine bacteria Marinobacter hydrocarbonoclasticus RAD-2 Metabolism Metabolites Microbiological research Microorganisms Nitrates Nitric oxide Nitrogen Nitrogen metabolism Nitrogen removal nitrogen-removal efficiency Osmosis Osmotic pressure Physiological aspects Potassium Purification Salinity Salinity effects Sewage Sodium Sodium chloride Sodium sulfate Wastewater treatment Water treatment
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creator	Li, Junchi Cai, Lei Lu, Huifeng Ma, Bin Chen, Guangsuo Kong, Dedong Hu, Yiming Ye, Ziran Ruan, Yunjie
description	Salinity is one of the most important factors affecting the nitrogen-removal efficiency of denitrifying bacteria. A series of different ion combinations and salinity gradients were carried out to clarify the effects of ion types and concentrations on nitrogen removal by halophilic aerobic denitrifying bacteria RAD-2. Nitrate concentrations, nitrite concentrations, TAN concentrations, and OD600 were monitored to investigate their effects on denitrification in each group. The results showed that Na+, K+, and Cl- accelerated the denitrification process and improved nitrogen-removal efficiency at moderate additions, while Ca2+ and Mg2+ showed no significant effect. Na+ was effective alone, while K+ or Cl- needed to be combined with at least one of Na+, K+, or Cl- to achieve similar efficiency. The batch tests of salinity confirmed that the addition of a moderate concentration of NaCl/Na2SO4 could effectively improve nitrogen-removal efficiency, while excessive salinity might hinder denitrification metabolism. In the salinity range of 5~40‰, a 5‰ dosage might be the most economical method for strain RAD-2. Real-time PCR experiments on 17 key nitrogen metabolism-related genes revealed that chloride was widely involved in the nitrogen and carbon metabolism of microorganisms by altering cell osmotic pressure and opening ion channel proteins, thereby affecting the efficiency of denitrification. The results of this study may contribute to a better understanding of the different roles of various ions in aerobic denitrification and highlight the importance of salinity control in highly salted wastewater treatment.
doi_str_mv	10.3390/microorganisms11081867
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A series of different ion combinations and salinity gradients were carried out to clarify the effects of ion types and concentrations on nitrogen removal by halophilic aerobic denitrifying bacteria RAD-2. Nitrate concentrations, nitrite concentrations, TAN concentrations, and OD600 were monitored to investigate their effects on denitrification in each group. The results showed that Na+, K+, and Cl- accelerated the denitrification process and improved nitrogen-removal efficiency at moderate additions, while Ca2+ and Mg2+ showed no significant effect. Na+ was effective alone, while K+ or Cl- needed to be combined with at least one of Na+, K+, or Cl- to achieve similar efficiency. The batch tests of salinity confirmed that the addition of a moderate concentration of NaCl/Na2SO4 could effectively improve nitrogen-removal efficiency, while excessive salinity might hinder denitrification metabolism. In the salinity range of 5~40‰, a 5‰ dosage might be the most economical method for strain RAD-2. Real-time PCR experiments on 17 key nitrogen metabolism-related genes revealed that chloride was widely involved in the nitrogen and carbon metabolism of microorganisms by altering cell osmotic pressure and opening ion channel proteins, thereby affecting the efficiency of denitrification. The results of this study may contribute to a better understanding of the different roles of various ions in aerobic denitrification and highlight the importance of salinity control in highly salted wastewater treatment.</description><identifier>ISSN: 2076-2607</identifier><identifier>EISSN: 2076-2607</identifier><identifier>DOI: 10.3390/microorganisms11081867</identifier><identifier>PMID: 37630427</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>aerobic denitrification ; Bacteria ; Bacteria, Aerobic ; Calcium ions ; Carbon ; Chemical properties ; Denitrification ; Denitrifying bacteria ; Efficiency ; Enzymes ; Gene expression ; Genes ; Genetic aspects ; Genomes ; Ion channels ; ion combinations ; Ions ; Magnesium ; Marine bacteria ; Marinobacter hydrocarbonoclasticus RAD-2 ; Metabolism ; Metabolites ; Microbiological research ; Microorganisms ; Nitrates ; Nitric oxide ; Nitrogen ; Nitrogen metabolism ; Nitrogen removal ; nitrogen-removal efficiency ; Osmosis ; Osmotic pressure ; Physiological aspects ; Potassium ; Purification ; Salinity ; Salinity effects ; Sewage ; Sodium ; Sodium chloride ; Sodium sulfate ; Wastewater treatment ; Water treatment</subject><ispartof>Microorganisms (Basel), 2023-07, Vol.11 (8), p.1867</ispartof><rights>COPYRIGHT 2023 MDPI AG</rights><rights>2023 by the authors. 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A series of different ion combinations and salinity gradients were carried out to clarify the effects of ion types and concentrations on nitrogen removal by halophilic aerobic denitrifying bacteria RAD-2. Nitrate concentrations, nitrite concentrations, TAN concentrations, and OD600 were monitored to investigate their effects on denitrification in each group. The results showed that Na+, K+, and Cl- accelerated the denitrification process and improved nitrogen-removal efficiency at moderate additions, while Ca2+ and Mg2+ showed no significant effect. Na+ was effective alone, while K+ or Cl- needed to be combined with at least one of Na+, K+, or Cl- to achieve similar efficiency. The batch tests of salinity confirmed that the addition of a moderate concentration of NaCl/Na2SO4 could effectively improve nitrogen-removal efficiency, while excessive salinity might hinder denitrification metabolism. 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A series of different ion combinations and salinity gradients were carried out to clarify the effects of ion types and concentrations on nitrogen removal by halophilic aerobic denitrifying bacteria RAD-2. Nitrate concentrations, nitrite concentrations, TAN concentrations, and OD600 were monitored to investigate their effects on denitrification in each group. The results showed that Na+, K+, and Cl- accelerated the denitrification process and improved nitrogen-removal efficiency at moderate additions, while Ca2+ and Mg2+ showed no significant effect. Na+ was effective alone, while K+ or Cl- needed to be combined with at least one of Na+, K+, or Cl- to achieve similar efficiency. The batch tests of salinity confirmed that the addition of a moderate concentration of NaCl/Na2SO4 could effectively improve nitrogen-removal efficiency, while excessive salinity might hinder denitrification metabolism. In the salinity range of 5~40‰, a 5‰ dosage might be the most economical method for strain RAD-2. Real-time PCR experiments on 17 key nitrogen metabolism-related genes revealed that chloride was widely involved in the nitrogen and carbon metabolism of microorganisms by altering cell osmotic pressure and opening ion channel proteins, thereby affecting the efficiency of denitrification. The results of this study may contribute to a better understanding of the different roles of various ions in aerobic denitrification and highlight the importance of salinity control in highly salted wastewater treatment.</abstract><cop>Basel</cop><pub>MDPI AG</pub><pmid>37630427</pmid><doi>10.3390/microorganisms11081867</doi><orcidid>https://orcid.org/0000-0003-2426-6236</orcidid><oa>free_for_read</oa></addata></record>
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subjects	aerobic denitrification Bacteria Bacteria, Aerobic Calcium ions Carbon Chemical properties Denitrification Denitrifying bacteria Efficiency Enzymes Gene expression Genes Genetic aspects Genomes Ion channels ion combinations Ions Magnesium Marine bacteria Marinobacter hydrocarbonoclasticus RAD-2 Metabolism Metabolites Microbiological research Microorganisms Nitrates Nitric oxide Nitrogen Nitrogen metabolism Nitrogen removal nitrogen-removal efficiency Osmosis Osmotic pressure Physiological aspects Potassium Purification Salinity Salinity effects Sewage Sodium Sodium chloride Sodium sulfate Wastewater treatment Water treatment
title	Effects of Ion Combinations and Their Concentrations on Denitrification Performance and Gene Expressions of an Aerobic Strain Marinobacter Hydrocarbonoclasticus RAD-2
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