Strong mineralogic control of soil organic matter composition in response to nutrient addition across diverse grassland sites

Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals, which mediate the sorption of chemically diverse organic matter (OM) molecules via distinct surface areas and chemical functional group avai...

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Published inThe Science of the total environment Vol. 736; p. 137839
Main Authors Zhao, Qian, Callister, Stephen J., Thompson, Allison M., Kukkadapu, Ravi K., Tfaily, Malak M., Bramer, Lisa M., Qafoku, Nikolla P., Bell, Sheryl L., Hobbie, Sarah E., Seabloom, Eric W., Borer, Elizabeth T., Hofmockel, Kirsten S.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 20.09.2020
Subjects
biogeochemistry
Chemical composition
clay fraction
Ecosystem service
ecosystems
ferrihydrite
Fertilization
grassland soils
grasslands
hydrophobicity
iron
lipids
mineral content
Mineralogy
moieties
nitrogen
Organo-mineral complex
soil aggregates
soil mineralogy
soil organic matter
sorption
Zonal structure
Chemical composition
Fertilization
Organo-mineral complex
Ecosystem service
Mineralogy
Zonal structure
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Abstract Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals, which mediate the sorption of chemically diverse organic matter (OM) molecules via distinct surface areas and chemical functional group availabilities. Unifying principles of mineral-OM interactions remain elusive because of the multi-layered nature of biochemical-mineral interactions that contribute to soil aggregate formation and the heterogeneous nature of soils among ecosystems. This study sought to understand how soil mineralogy as well as nitrogen (N) enrichment regulate OM composition in grassland soils. Using a multi-site grassland experiment, we demonstrate that the composition of mineral-associated OM depended on the clay content and specific mineral composition in soils across the sites. With increasing abundance of ferrihydrite (Fh) across six different grassland locations, OM in the hydrophobic zone became more enriched in lipid- and protein-like compounds, whereas the kinetic zone OM became more enriched in lignin-like molecules. These relationships suggest that the persistence of various classes of OM in soils may depend on soil iron mineralogy and provide experimental evidence to support conceptual models of zonal mineral-OM associations. Experimental N addition disrupted the accumulation of protein-like molecules in the hydrophobic zone and the positive correlation of lignin-like molecules in the kinetic zone with Fh content, compared to unfertilized soils. These data suggest that mineralogy and clay content together influence the chemical composition not only of mineral-associated OM, but also of soluble compounds within the soil matrix. If these relationships are prevalent over larger spatial and temporal scales, they provide a foundation for understanding SOM cycling and persistence under a variety of environmental contexts. [Display omitted] •Beyond clay content, mineralogy strongly controlled the composition of MAOM.•Ferrihydrite accumulated proteins and lipids in the hydrophobic zone of MAOM.•The mineral core influenced biochemical persistence of OM in the kinetic zone.•Nitrogen fertilization altered carbon chemistry and organo-mineral interactions.
AbstractList Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals, which mediate the sorption of chemically diverse organic matter (OM) molecules via distinct surface areas and chemical functional group availabilities. Unifying principles of mineral-OM interactions remain elusive because of the multi-layered nature of biochemical-mineral interactions that contribute to soil aggregate formation and the heterogeneous nature of soils among ecosystems. This study sought to understand how soil mineralogy as well as nitrogen (N) enrichment regulate OM composition in grassland soils. Using a multi-site grassland experiment, we demonstrate that the composition of mineral-associated OM depended on the clay content and specific mineral composition in soils across the sites. With increasing abundance of ferrihydrite (Fh) across six different grassland locations, OM in the hydrophobic zone became more enriched in lipid- and protein-like compounds, whereas the kinetic zone OM became more enriched in lignin-like molecules. These relationships suggest that the persistence of various classes of OM in soils may depend on soil iron mineralogy and provide experimental evidence to support conceptual models of zonal mineral-OM associations. Experimental N addition disrupted the accumulation of protein-like molecules in the hydrophobic zone and the positive correlation of lignin-like molecules in the kinetic zone with Fh content, compared to unfertilized soils. These data suggest that mineralogy and clay content together influence the chemical composition not only of mineral-associated OM, but also of soluble compounds within the soil matrix. If these relationships are prevalent over larger spatial and temporal scales, they provide a foundation for understanding SOM cycling and persistence under a variety of environmental contexts.
Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals, which mediate the sorption of chemically diverse organic matter (OM) molecules via distinct surface areas and chemical functional group availabilities. Unifying principles of mineral-OM interactions remain elusive because of the multi-layered nature of biochemical-mineral interactions that contribute to soil aggregate formation and the heterogeneous nature of soils among ecosystems. This study sought to understand how soil mineralogy as well as nitrogen (N) enrichment regulate OM composition in grassland soils. Using a multi-site grassland experiment, we demonstrate that the composition of mineral-associated OM depended on the clay content and specific mineral composition in soils across the sites. With increasing abundance of ferrihydrite (Fh) across six different grassland locations, OM in the hydrophobic zone became more enriched in lipid- and protein-like compounds, whereas the kinetic zone OM became more enriched in lignin-like molecules. These relationships suggest that the persistence of various classes of OM in soils may depend on soil iron mineralogy and provide experimental evidence to support conceptual models of zonal mineral-OM associations. Experimental N addition disrupted the accumulation of protein-like molecules in the hydrophobic zone and the positive correlation of lignin-like molecules in the kinetic zone with Fh content, compared to unfertilized soils. These data suggest that mineralogy and clay content together influence the chemical composition not only of mineral-associated OM, but also of soluble compounds within the soil matrix. If these relationships are prevalent over larger spatial and temporal scales, they provide a foundation for understanding SOM cycling and persistence under a variety of environmental contexts.Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals, which mediate the sorption of chemically diverse organic matter (OM) molecules via distinct surface areas and chemical functional group availabilities. Unifying principles of mineral-OM interactions remain elusive because of the multi-layered nature of biochemical-mineral interactions that contribute to soil aggregate formation and the heterogeneous nature of soils among ecosystems. This study sought to understand how soil mineralogy as well as nitrogen (N) enrichment regulate OM composition in grassland soils. Using a multi-site grassland experiment, we demonstrate that the composition of mineral-associated OM depended on the clay content and specific mineral composition in soils across the sites. With increasing abundance of ferrihydrite (Fh) across six different grassland locations, OM in the hydrophobic zone became more enriched in lipid- and protein-like compounds, whereas the kinetic zone OM became more enriched in lignin-like molecules. These relationships suggest that the persistence of various classes of OM in soils may depend on soil iron mineralogy and provide experimental evidence to support conceptual models of zonal mineral-OM associations. Experimental N addition disrupted the accumulation of protein-like molecules in the hydrophobic zone and the positive correlation of lignin-like molecules in the kinetic zone with Fh content, compared to unfertilized soils. These data suggest that mineralogy and clay content together influence the chemical composition not only of mineral-associated OM, but also of soluble compounds within the soil matrix. If these relationships are prevalent over larger spatial and temporal scales, they provide a foundation for understanding SOM cycling and persistence under a variety of environmental contexts.
Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals, which mediate the sorption of chemically diverse organic matter (OM) molecules via distinct surface areas and chemical functional group availabilities. Unifying principles of mineral-OM interactions remain elusive because of the multi-layered nature of biochemical-mineral interactions that contribute to soil aggregate formation and the heterogeneous nature of soils among ecosystems. This study sought to understand how soil mineralogy as well as nitrogen (N) enrichment regulate OM composition in grassland soils. Using a multi-site grassland experiment, we demonstrate that the composition of mineral-associated OM depended on the clay content and specific mineral composition in soils across the sites. With increasing abundance of ferrihydrite (Fh) across six different grassland locations, OM in the hydrophobic zone became more enriched in lipid- and protein-like compounds, whereas the kinetic zone OM became more enriched in lignin-like molecules. These relationships suggest that the persistence of various classes of OM in soils may depend on soil iron mineralogy and provide experimental evidence to support conceptual models of zonal mineral-OM associations. Experimental N addition disrupted the accumulation of protein-like molecules in the hydrophobic zone and the positive correlation of lignin-like molecules in the kinetic zone with Fh content, compared to unfertilized soils. These data suggest that mineralogy and clay content together influence the chemical composition not only of mineral-associated OM, but also of soluble compounds within the soil matrix. If these relationships are prevalent over larger spatial and temporal scales, they provide a foundation for understanding SOM cycling and persistence under a variety of environmental contexts. [Display omitted] •Beyond clay content, mineralogy strongly controlled the composition of MAOM.•Ferrihydrite accumulated proteins and lipids in the hydrophobic zone of MAOM.•The mineral core influenced biochemical persistence of OM in the kinetic zone.•Nitrogen fertilization altered carbon chemistry and organo-mineral interactions.
ArticleNumber 137839
Author Seabloom, Eric W.
Thompson, Allison M.
Kukkadapu, Ravi K.
Bramer, Lisa M.
Zhao, Qian
Callister, Stephen J.
Tfaily, Malak M.
Hofmockel, Kirsten S.
Qafoku, Nikolla P.
Bell, Sheryl L.
Borer, Elizabeth T.
Hobbie, Sarah E.
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  surname: Zhao
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  givenname: Stephen J.
  surname: Callister
  fullname: Callister, Stephen J.
  organization: Earth and Biological Sciences Directorate, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA 99354, USA
– sequence: 3
  givenname: Allison M.
  surname: Thompson
  fullname: Thompson, Allison M.
  organization: Earth and Biological Sciences Directorate, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA 99354, USA
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  givenname: Ravi K.
  surname: Kukkadapu
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  surname: Tfaily
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– sequence: 6
  givenname: Lisa M.
  surname: Bramer
  fullname: Bramer, Lisa M.
  organization: National Security Directorate, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA 99354, USA
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  givenname: Nikolla P.
  surname: Qafoku
  fullname: Qafoku, Nikolla P.
  organization: Energy & Environment Directorate, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA 99354, USA
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  givenname: Sheryl L.
  surname: Bell
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  organization: Earth and Biological Sciences Directorate, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA 99354, USA
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  organization: Department of Ecology, Evolution & Behavior, University of Minnesota, 1479 Gortner Avenue, St. Paul, MN 55108, USA
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  givenname: Eric W.
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  givenname: Elizabeth T.
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  organization: Department of Ecology, Evolution & Behavior, University of Minnesota, 1479 Gortner Avenue, St. Paul, MN 55108, USA
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  givenname: Kirsten S.
  orcidid: 0000-0003-1586-2167
  surname: Hofmockel
  fullname: Hofmockel, Kirsten S.
  email: kirsten.hofmockel@pnnl.gov
  organization: Earth and Biological Sciences Directorate, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA 99354, USA
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  ident: 10.1016/j.scitotenv.2020.137839_bb0415
  article-title: Oxidation of phenolic and non-phenolic substrates by the lignin peroxidase of Streptomyces viridosporus T7A
  publication-title: Appl. Microbiol. Biotechnol.
  doi: 10.1007/BF00180980
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Snippet Soil organic matter (SOM) dynamics are central to soil biogeochemistry and fertility. The retention of SOM is governed initially by interactions with minerals,...
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StartPage 137839
SubjectTerms biogeochemistry
Chemical composition
clay fraction
Ecosystem service
ecosystems
ferrihydrite
Fertilization
grassland soils
grasslands
hydrophobicity
iron
lipids
mineral content
Mineralogy
moieties
nitrogen
Organo-mineral complex
soil aggregates
soil mineralogy
soil organic matter
sorption
Zonal structure
Title Strong mineralogic control of soil organic matter composition in response to nutrient addition across diverse grassland sites
URI https://dx.doi.org/10.1016/j.scitotenv.2020.137839
https://www.proquest.com/docview/2410731511
https://www.proquest.com/docview/2431874552
Volume 736
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