Interactive effects of soil salinity and nitrogen fertilizer types on nitrous oxide and ammonia fluxes

Soil salinization, impaired by climate change and poor management practices, poses a global threat, particularly in arid and semi-arid regions, leading to significant land degradation. This study aims to investigate the effects of different nitrogen (N) fertilizer sources (urea, ammonium-sulfate, an...

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Published inGeoderma Regional Vol. 38; p. e00831
Main Authors Ramazanoglu, Emrah, Almarie, Vasan, Suzer, Mehmet Hadi, Shan, Jun, Wei, Zhijun, Cullu, Mehmet Ali, Bol, Roland, Senbayram, Mehmet
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2024
Subjects
ammonia
ammonia volatilization
ammonium sulfate
biogas
carbon dioxide
climate change
denitrification
enzyme activity
evolution
fertilizer application
Fertilizer sources
land degradation
mineralization
N2O
nitrate reductase
nitrification
nitrogen
nitrogen fertilizers
nitrous oxide
Salinity
soil enzymes
soil organic matter
Soil rewetting
soil salinity
soil salinization
urea
urease
volatilization
wastes
ammonia volatilization
N2O
Fertilizer sources
Soil rewetting
Salinity
Online AccessGet full text
ISSN2352-0094
2352-0094
DOI10.1016/j.geodrs.2024.e00831

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Abstract Soil salinization, impaired by climate change and poor management practices, poses a global threat, particularly in arid and semi-arid regions, leading to significant land degradation. This study aims to investigate the effects of different nitrogen (N) fertilizer sources (urea, ammonium-sulfate, and biogas waste) on CO2, N2O, and NH3 emissions and soil enzyme activities in two soil types varying in salinity level (non-saline: EC = 1.15 dS m−1, and saline: EC = 35.80 dS m−1) in a robotized continuous-flow soil incubation system. Our results showed a sharp increase in N2O and CO2 emissions (up to 0.51 ± 0.02 g N2O-N ha−1 day−1, 28.1 ± 3.9 kg CO2-C ha−1 day−1) in non-saline soils following soil rewetting, attributed to bacterial denitrification. However, this pattern was not observed in saline soils, suggesting that salinity causes partial inhibition to the regeneration of soil organic matter mineralization and denitrification processes after rewetting. Although salinity did not alter the overall cumulative N2O losses in any fertilizer treatment, it significantly delayed the evolution of N2O peak during the incubation period. On the other hand, NH3 volatilization was significantly higher in N-fertilized saline soils compared to non-saline soils (241% and 157% in ammonium-sulfate and biogas waste treatments, respectively), except for urea treatment, likely due to the decrease in nitrification rates. Furthermore, the study clearly showed lower soil enzyme activity levels for both nitrate reductase and urease activity. Interestingly, the lowest NH3 emissions were measured in urea treatment in both soils. Overall, our findings highlight the complex interplay between soil salinity, nitrogen fertilizer sources, and microbial processes, significantly influencing gaseous nitrogen emissions and N cycling in agricultural soils. Identifying the specific fertilizer treatments that minimize or maximize gaseous nitrogen losses in varying soil salinity, may guide the selection of appropriate fertilization strategies for farmers and policymakers to mitigate environmental impacts of fertilizer use during agricultural production.
AbstractList Soil salinization, impaired by climate change and poor management practices, poses a global threat, particularly in arid and semi-arid regions, leading to significant land degradation. This study aims to investigate the effects of different nitrogen (N) fertilizer sources (urea, ammonium-sulfate, and biogas waste) on CO₂, N₂O, and NH₃ emissions and soil enzyme activities in two soil types varying in salinity level (non-saline: EC = 1.15 dS m⁻¹, and saline: EC = 35.80 dS m⁻¹) in a robotized continuous-flow soil incubation system. Our results showed a sharp increase in N₂O and CO₂ emissions (up to 0.51 ± 0.02 g N₂O-N ha⁻¹ day⁻¹, 28.1 ± 3.9 kg CO₂-C ha⁻¹ day⁻¹) in non-saline soils following soil rewetting, attributed to bacterial denitrification. However, this pattern was not observed in saline soils, suggesting that salinity causes partial inhibition to the regeneration of soil organic matter mineralization and denitrification processes after rewetting. Although salinity did not alter the overall cumulative N₂O losses in any fertilizer treatment, it significantly delayed the evolution of N₂O peak during the incubation period. On the other hand, NH₃ volatilization was significantly higher in N-fertilized saline soils compared to non-saline soils (241% and 157% in ammonium-sulfate and biogas waste treatments, respectively), except for urea treatment, likely due to the decrease in nitrification rates. Furthermore, the study clearly showed lower soil enzyme activity levels for both nitrate reductase and urease activity. Interestingly, the lowest NH₃ emissions were measured in urea treatment in both soils. Overall, our findings highlight the complex interplay between soil salinity, nitrogen fertilizer sources, and microbial processes, significantly influencing gaseous nitrogen emissions and N cycling in agricultural soils. Identifying the specific fertilizer treatments that minimize or maximize gaseous nitrogen losses in varying soil salinity, may guide the selection of appropriate fertilization strategies for farmers and policymakers to mitigate environmental impacts of fertilizer use during agricultural production.
Soil salinization, impaired by climate change and poor management practices, poses a global threat, particularly in arid and semi-arid regions, leading to significant land degradation. This study aims to investigate the effects of different nitrogen (N) fertilizer sources (urea, ammonium-sulfate, and biogas waste) on CO2, N2O, and NH3 emissions and soil enzyme activities in two soil types varying in salinity level (non-saline: EC = 1.15 dS m−1, and saline: EC = 35.80 dS m−1) in a robotized continuous-flow soil incubation system. Our results showed a sharp increase in N2O and CO2 emissions (up to 0.51 ± 0.02 g N2O-N ha−1 day−1, 28.1 ± 3.9 kg CO2-C ha−1 day−1) in non-saline soils following soil rewetting, attributed to bacterial denitrification. However, this pattern was not observed in saline soils, suggesting that salinity causes partial inhibition to the regeneration of soil organic matter mineralization and denitrification processes after rewetting. Although salinity did not alter the overall cumulative N2O losses in any fertilizer treatment, it significantly delayed the evolution of N2O peak during the incubation period. On the other hand, NH3 volatilization was significantly higher in N-fertilized saline soils compared to non-saline soils (241% and 157% in ammonium-sulfate and biogas waste treatments, respectively), except for urea treatment, likely due to the decrease in nitrification rates. Furthermore, the study clearly showed lower soil enzyme activity levels for both nitrate reductase and urease activity. Interestingly, the lowest NH3 emissions were measured in urea treatment in both soils. Overall, our findings highlight the complex interplay between soil salinity, nitrogen fertilizer sources, and microbial processes, significantly influencing gaseous nitrogen emissions and N cycling in agricultural soils. Identifying the specific fertilizer treatments that minimize or maximize gaseous nitrogen losses in varying soil salinity, may guide the selection of appropriate fertilization strategies for farmers and policymakers to mitigate environmental impacts of fertilizer use during agricultural production.
ArticleNumber e00831
Author Ramazanoglu, Emrah
Almarie, Vasan
Suzer, Mehmet Hadi
Cullu, Mehmet Ali
Wei, Zhijun
Shan, Jun
Senbayram, Mehmet
Bol, Roland
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  givenname: Zhijun
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  fullname: Wei, Zhijun
  email: zjwei@issas.ac.cn
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  givenname: Mehmet Ali
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  fullname: Cullu, Mehmet Ali
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  givenname: Roland
  surname: Bol
  fullname: Bol, Roland
  organization: Institute of Bio- and Geosciences, Agrosphere (IBG-3), Forschungszentrum Jülich GmbH, Jülich 52425, Germany
– sequence: 8
  givenname: Mehmet
  surname: Senbayram
  fullname: Senbayram, Mehmet
  organization: Department of Soil Science and Plant Nutrition, Faculty of Agriculture University of Harran, Osmanbey 63000, Sanliurfa, Türkiye
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N2O
Fertilizer sources
Soil rewetting
Salinity
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Snippet Soil salinization, impaired by climate change and poor management practices, poses a global threat, particularly in arid and semi-arid regions, leading to...
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SubjectTerms ammonia
ammonia volatilization
ammonium sulfate
biogas
carbon dioxide
climate change
denitrification
enzyme activity
evolution
fertilizer application
Fertilizer sources
land degradation
mineralization
N2O
nitrate reductase
nitrification
nitrogen
nitrogen fertilizers
nitrous oxide
Salinity
soil enzymes
soil organic matter
Soil rewetting
soil salinity
soil salinization
urea
urease
volatilization
wastes
Title Interactive effects of soil salinity and nitrogen fertilizer types on nitrous oxide and ammonia fluxes
URI https://dx.doi.org/10.1016/j.geodrs.2024.e00831
https://www.proquest.com/docview/3153717985
Volume 38
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