Nitrogen immobilization in paddy soils as affected by redox conditions and rice straw incorporation

Biotic and abiotic processes controlling nitrogen (N) immobilization in paddy soils may significantly affect nutrient availability for plant uptake during the rice cropping season, as well as the efficiency of applied N fertilizers. Understanding the influence of water and crop residue management pr...

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Published inGeoderma Vol. 228-229; pp. 44 - 53
Main Authors Said-Pullicino, Daniel, Cucu, Maria Alexandra, Sodano, Marcella, Birk, Jago Jonathan, Glaser, Bruno, Celi, Luisella
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2014
Subjects
Aggregate-size fractionation
Amino sugars
anaerobic conditions
Availability
clay minerals
Compound specific δ15N stable isotope mass spectrometry
crop residue management
Fertilizer-derived nitrogen
fractionation
Immobilization
Interlayer fixation
Interlayers
microaggregates
Microorganisms
nitrogen
nitrogen fertilizers
nitrogen fixation
nutrient availability
organic matter
Oryza sativa
paddies
paddy soils
Residues
Rice
rice straw
Soils
stable isotopes
Straw
topsoil
Interlayer fixation
Aggregate-size fractionation
Amino sugars
Fertilizer-derived nitrogen
Compound specific δ15N stable isotope mass spectrometry
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Abstract Biotic and abiotic processes controlling nitrogen (N) immobilization in paddy soils may significantly affect nutrient availability for plant uptake during the rice cropping season, as well as the efficiency of applied N fertilizers. Understanding the influence of water and crop residue management practices on N availability, however, requires detailed insight into the mechanisms and factors controlling N immobilization in these soils. We evaluated changes in fertilizer-15N immobilization in a paddy topsoil incubated for 160d under flooded or non-flooded conditions, with or without rice straw incorporation. The distribution of immobilized N between different soil fractions and interlayer N fixation was assessed by combining aggregate-size, density and chemical fractionation with stable isotope analysis, while compound-specific δ15N analysis of individual amino sugars was used to evaluate microbial utilization of applied N. Fast immobilization of applied N (≈48% applied N) was observed in both flooded (Eh=+0.4 to −0.2V) and non-flooded (Eh=+0.4 to +0.6V) soils, however in the latter most of this N was released during incubation. The finer soil fractions served as the greatest sink of immobilized N, retaining 5–36% of the added N. Although biotic processes were mainly responsible for N retention, about 4–11% of N applied to flooded soils was weakly fixed within the interlayer of clay minerals, primarily associated with microaggregates. Straw addition further enhanced N immobilization under both oxic and anoxic conditions, with ≈12% of total immobilized N (2–4% of applied N) associated with the light organic matter fraction. The increasing incorporation of applied N into microbial residues suggested that addition of rice straw to paddy soils may lead to effective microbial-mediated immobilization and stabilization of significant portions of N inputs. •More fertilizer-N is immobilized under anoxic with respect to oxic soil conditions.•Finer soil fractions serve as the greatest sink of immobilized N.•Flooding influences aggregate stability and N immobilization mechanisms.•Microbial N immobilization is intimately coupled with crop residue incorporation.•Interlayer NH4+ fixation depends on redox conditions and straw incorporation.
AbstractList Biotic and abiotic processes controlling nitrogen (N) immobilization in paddy soils may significantly affect nutrient availability for plant uptake during the rice cropping season, as well as the efficiency of applied N fertilizers. Understanding the influence of water and crop residue management practices on N availability, however, requires detailed insight into the mechanisms and factors controlling N immobilization in these soils. We evaluated changes in fertilizer- super(15)N immobilization in a paddy topsoil incubated for 160 d under flooded or non-flooded conditions, with or without rice straw incorporation. The distribution of immobilized N between different soil fractions and interlayer N fixation was assessed by combining aggregate-size, density and chemical fractionation with stable isotope analysis, while compound-specific delta super(15)N analysis of individual amino sugars was used to evaluate microbial utilization of applied N. Fast immobilization of applied N ( approximately 48% applied N) was observed in both flooded (Eh = + 0.4 to - 0.2 V) and non-flooded (Eh = + 0.4 to + 0.6 V) soils, however in the latter most of this N was released during incubation. The finer soil fractions served as the greatest sink of immobilized N, retaining 5-36% of the added N. Although biotic processes were mainly responsible for N retention, about 4-11% of N applied to flooded soils was weakly fixed within the interlayer of clay minerals, primarily associated with microaggregates. Straw addition further enhanced N immobilization under both oxic and anoxic conditions, with approximately 12% of total immobilized N (2-4% of applied N) associated with the light organic matter fraction. The increasing incorporation of applied N into microbial residues suggested that addition of rice straw to paddy soils may lead to effective microbial-mediated immobilization and stabilization of significant portions of N inputs.
Biotic and abiotic processes controlling nitrogen (N) immobilization in paddy soils may significantly affect nutrient availability for plant uptake during the rice cropping season, as well as the efficiency of applied N fertilizers. Understanding the influence of water and crop residue management practices on N availability, however, requires detailed insight into the mechanisms and factors controlling N immobilization in these soils. We evaluated changes in fertilizer-15N immobilization in a paddy topsoil incubated for 160d under flooded or non-flooded conditions, with or without rice straw incorporation. The distribution of immobilized N between different soil fractions and interlayer N fixation was assessed by combining aggregate-size, density and chemical fractionation with stable isotope analysis, while compound-specific δ15N analysis of individual amino sugars was used to evaluate microbial utilization of applied N. Fast immobilization of applied N (≈48% applied N) was observed in both flooded (Eh=+0.4 to −0.2V) and non-flooded (Eh=+0.4 to +0.6V) soils, however in the latter most of this N was released during incubation. The finer soil fractions served as the greatest sink of immobilized N, retaining 5–36% of the added N. Although biotic processes were mainly responsible for N retention, about 4–11% of N applied to flooded soils was weakly fixed within the interlayer of clay minerals, primarily associated with microaggregates. Straw addition further enhanced N immobilization under both oxic and anoxic conditions, with ≈12% of total immobilized N (2–4% of applied N) associated with the light organic matter fraction. The increasing incorporation of applied N into microbial residues suggested that addition of rice straw to paddy soils may lead to effective microbial-mediated immobilization and stabilization of significant portions of N inputs. •More fertilizer-N is immobilized under anoxic with respect to oxic soil conditions.•Finer soil fractions serve as the greatest sink of immobilized N.•Flooding influences aggregate stability and N immobilization mechanisms.•Microbial N immobilization is intimately coupled with crop residue incorporation.•Interlayer NH4+ fixation depends on redox conditions and straw incorporation.
Biotic and abiotic processes controlling nitrogen (N) immobilization in paddy soils may significantly affect nutrient availability for plant uptake during the rice cropping season, as well as the efficiency of applied N fertilizers. Understanding the influence of water and crop residue management practices on N availability, however, requires detailed insight into the mechanisms and factors controlling N immobilization in these soils. We evaluated changes in fertilizer-15N immobilization in a paddy topsoil incubated for 160d under flooded or non-flooded conditions, with or without rice straw incorporation. The distribution of immobilized N between different soil fractions and interlayer N fixation was assessed by combining aggregate-size, density and chemical fractionation with stable isotope analysis, while compound-specific δ15N analysis of individual amino sugars was used to evaluate microbial utilization of applied N. Fast immobilization of applied N (≈48% applied N) was observed in both flooded (Eh=+0.4 to −0.2V) and non-flooded (Eh=+0.4 to +0.6V) soils, however in the latter most of this N was released during incubation. The finer soil fractions served as the greatest sink of immobilized N, retaining 5–36% of the added N. Although biotic processes were mainly responsible for N retention, about 4–11% of N applied to flooded soils was weakly fixed within the interlayer of clay minerals, primarily associated with microaggregates. Straw addition further enhanced N immobilization under both oxic and anoxic conditions, with ≈12% of total immobilized N (2–4% of applied N) associated with the light organic matter fraction. The increasing incorporation of applied N into microbial residues suggested that addition of rice straw to paddy soils may lead to effective microbial-mediated immobilization and stabilization of significant portions of N inputs.
Author Cucu, Maria Alexandra
Birk, Jago Jonathan
Sodano, Marcella
Glaser, Bruno
Said-Pullicino, Daniel
Celi, Luisella
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  surname: Said-Pullicino
  fullname: Said-Pullicino, Daniel
  email: daniel.saidpullicino@unito.it
  organization: Rice Agro-ecosystem and Environmental Research Group, Dept. of Agricultural, Forest and Food Sciences, University of Torino, Via Leonardo da Vinci 44, Grugliasco 10095, Italy
– sequence: 2
  givenname: Maria Alexandra
  surname: Cucu
  fullname: Cucu, Maria Alexandra
  organization: Rice Agro-ecosystem and Environmental Research Group, Dept. of Agricultural, Forest and Food Sciences, University of Torino, Via Leonardo da Vinci 44, Grugliasco 10095, Italy
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  givenname: Marcella
  surname: Sodano
  fullname: Sodano, Marcella
  organization: Rice Agro-ecosystem and Environmental Research Group, Dept. of Agricultural, Forest and Food Sciences, University of Torino, Via Leonardo da Vinci 44, Grugliasco 10095, Italy
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  givenname: Jago Jonathan
  surname: Birk
  fullname: Birk, Jago Jonathan
  organization: Soil Biogeochemistry, Martin Luther Universität Halle-Wittenberg, von-Seckendorff-Platz 3, 06120 Halle/Saale, Germany
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  givenname: Bruno
  surname: Glaser
  fullname: Glaser, Bruno
  organization: Soil Biogeochemistry, Martin Luther Universität Halle-Wittenberg, von-Seckendorff-Platz 3, 06120 Halle/Saale, Germany
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  givenname: Luisella
  surname: Celi
  fullname: Celi, Luisella
  organization: Rice Agro-ecosystem and Environmental Research Group, Dept. of Agricultural, Forest and Food Sciences, University of Torino, Via Leonardo da Vinci 44, Grugliasco 10095, Italy
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Keywords Interlayer fixation
Aggregate-size fractionation
Amino sugars
Fertilizer-derived nitrogen
Compound specific δ15N stable isotope mass spectrometry
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SSID ssj0017020
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Snippet Biotic and abiotic processes controlling nitrogen (N) immobilization in paddy soils may significantly affect nutrient availability for plant uptake during the...
SourceID proquest
crossref
elsevier
SourceType Aggregation Database
Enrichment Source
Index Database
Publisher
StartPage 44
SubjectTerms Aggregate-size fractionation
Amino sugars
anaerobic conditions
Availability
clay minerals
Compound specific δ15N stable isotope mass spectrometry
crop residue management
Fertilizer-derived nitrogen
fractionation
Immobilization
Interlayer fixation
Interlayers
microaggregates
Microorganisms
nitrogen
nitrogen fertilizers
nitrogen fixation
nutrient availability
organic matter
Oryza sativa
paddies
paddy soils
Residues
Rice
rice straw
Soils
stable isotopes
Straw
topsoil
Title Nitrogen immobilization in paddy soils as affected by redox conditions and rice straw incorporation
URI https://dx.doi.org/10.1016/j.geoderma.2013.06.020
https://www.proquest.com/docview/1534806679
https://www.proquest.com/docview/1642246368
https://www.proquest.com/docview/1836674865
Volume 228-229
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