Soil organic matter qualification with FTIR spectroscopy under different soil types in Estonia

Soil organic matter (SOM) is a heterogeneous material consisting of different functional groups depending on soil texture and moisture regime. The lability of SOM (rapidity of turnover rate) is also an important indicator in soil quality evaluation. In this study, SOM lability (p-WEOC) was assessed...

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Published inGeoderma Regional Vol. 28; p. e00483
Main Authors Pärnpuu, Sandra, Astover, Alar, Tõnutare, Tõnu, Penu, Priit, Kauer, Karin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2022
Subjects
absorbance
Degree of degradation
Estonia
Fourier transform infrared spectroscopy
FTIR spectroscopy
Gleysols
Hydrophobicity
Multiple soil types
soil organic carbon
Soil organic matter composition
Soil organic matter lability
soil quality
soil texture
Water repellency
Water-extractable organic carbon
Estonia
Water-extractable organic carbon
Water repellency
Soil organic matter lability
Soil organic matter composition
Hydrophobicity
Degree of degradation
Multiple soil types
FTIR spectroscopy
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Abstract Soil organic matter (SOM) is a heterogeneous material consisting of different functional groups depending on soil texture and moisture regime. The lability of SOM (rapidity of turnover rate) is also an important indicator in soil quality evaluation. In this study, SOM lability (p-WEOC) was assessed based on the proportion of total soil organic carbon (SOC) represented by water-extractable organic carbon (WEOC) for a wide range of Estonian arable soils. We applied Fourier-transform infrared spectroscopy (FTIR) to examine the SOM relationships between qualitative (functional groups, SOM lability (p-WEOC), hydrophobicity (HI), degree of degradation (DDI), and water repellency (W)) and quantitative (total SOC and WEOC concentration) parameters depending on soil texture and moisture regime. Gleysols had the highest SOC and WEOC concentrations and p-WEOC was typically highest in automorphic sandy soils and lowest in sandy Gleysols. Overall, p-WEOC values for Gleysols were lower than those for automorphic soils. SOC and WEOC concentrations were positively correlated with all measured absorbance peaks and p-WEOC was negatively correlated with some peaks but positively correlated with DDI. HI and W were highest in Gleysols; however, sandy and automorphic soils had higher DDI. In general, automorphic soils had higher lability and the SOM was more degraded than wet soils. In summary, it is possible to assess and compare SOM composition in different soil types with FTIR spectroscopy, although eliminating inorganic material from soil will provide more accurate results. •Gleysols had the highest SOC and WEOC concentrations.•Automorphic soils had the highest lability (p-WEOC).•SOC and WEOC were positively correlated with all FTIR absorbances.•P-WEOC was positively correlated with the degree of SOM decomposition.•Gleysols had higher SOM degradation level and hydrophobicity than drier soils.
AbstractList Soil organic matter (SOM) is a heterogeneous material consisting of different functional groups depending on soil texture and moisture regime. The lability of SOM (rapidity of turnover rate) is also an important indicator in soil quality evaluation. In this study, SOM lability (p-WEOC) was assessed based on the proportion of total soil organic carbon (SOC) represented by water-extractable organic carbon (WEOC) for a wide range of Estonian arable soils. We applied Fourier-transform infrared spectroscopy (FTIR) to examine the SOM relationships between qualitative (functional groups, SOM lability (p-WEOC), hydrophobicity (HI), degree of degradation (DDI), and water repellency (W)) and quantitative (total SOC and WEOC concentration) parameters depending on soil texture and moisture regime. Gleysols had the highest SOC and WEOC concentrations and p-WEOC was typically highest in automorphic sandy soils and lowest in sandy Gleysols. Overall, p-WEOC values for Gleysols were lower than those for automorphic soils. SOC and WEOC concentrations were positively correlated with all measured absorbance peaks and p-WEOC was negatively correlated with some peaks but positively correlated with DDI. HI and W were highest in Gleysols; however, sandy and automorphic soils had higher DDI. In general, automorphic soils had higher lability and the SOM was more degraded than wet soils. In summary, it is possible to assess and compare SOM composition in different soil types with FTIR spectroscopy, although eliminating inorganic material from soil will provide more accurate results.
Soil organic matter (SOM) is a heterogeneous material consisting of different functional groups depending on soil texture and moisture regime. The lability of SOM (rapidity of turnover rate) is also an important indicator in soil quality evaluation. In this study, SOM lability (p-WEOC) was assessed based on the proportion of total soil organic carbon (SOC) represented by water-extractable organic carbon (WEOC) for a wide range of Estonian arable soils. We applied Fourier-transform infrared spectroscopy (FTIR) to examine the SOM relationships between qualitative (functional groups, SOM lability (p-WEOC), hydrophobicity (HI), degree of degradation (DDI), and water repellency (W)) and quantitative (total SOC and WEOC concentration) parameters depending on soil texture and moisture regime. Gleysols had the highest SOC and WEOC concentrations and p-WEOC was typically highest in automorphic sandy soils and lowest in sandy Gleysols. Overall, p-WEOC values for Gleysols were lower than those for automorphic soils. SOC and WEOC concentrations were positively correlated with all measured absorbance peaks and p-WEOC was negatively correlated with some peaks but positively correlated with DDI. HI and W were highest in Gleysols; however, sandy and automorphic soils had higher DDI. In general, automorphic soils had higher lability and the SOM was more degraded than wet soils. In summary, it is possible to assess and compare SOM composition in different soil types with FTIR spectroscopy, although eliminating inorganic material from soil will provide more accurate results. •Gleysols had the highest SOC and WEOC concentrations.•Automorphic soils had the highest lability (p-WEOC).•SOC and WEOC were positively correlated with all FTIR absorbances.•P-WEOC was positively correlated with the degree of SOM decomposition.•Gleysols had higher SOM degradation level and hydrophobicity than drier soils.
ArticleNumber e00483
Author Pärnpuu, Sandra
Kauer, Karin
Astover, Alar
Tõnutare, Tõnu
Penu, Priit
Author_xml – sequence: 1
  givenname: Sandra
  surname: Pärnpuu
  fullname: Pärnpuu, Sandra
  email: sandra.parnpuu@emu.ee
  organization: Chair of Soil Science, Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Kreutzwaldi 1, EE51006 Tartu, Estonia
– sequence: 2
  givenname: Alar
  surname: Astover
  fullname: Astover, Alar
  organization: Chair of Soil Science, Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Kreutzwaldi 1, EE51006 Tartu, Estonia
– sequence: 3
  givenname: Tõnu
  surname: Tõnutare
  fullname: Tõnutare, Tõnu
  organization: Chair of Soil Science, Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Kreutzwaldi 1, EE51006 Tartu, Estonia
– sequence: 4
  givenname: Priit
  surname: Penu
  fullname: Penu, Priit
  organization: Estonian Agricultural Research Centre, Teaduse 4, 75501 Saku, Estonia
– sequence: 5
  givenname: Karin
  surname: Kauer
  fullname: Kauer, Karin
  organization: Chair of Soil Science, Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Kreutzwaldi 1, EE51006 Tartu, Estonia
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Keywords Water-extractable organic carbon
Water repellency
Soil organic matter lability
Soil organic matter composition
Hydrophobicity
Degree of degradation
Multiple soil types
FTIR spectroscopy
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SSID ssj0002953762
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Snippet Soil organic matter (SOM) is a heterogeneous material consisting of different functional groups depending on soil texture and moisture regime. The lability of...
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SubjectTerms absorbance
Degree of degradation
Estonia
Fourier transform infrared spectroscopy
FTIR spectroscopy
Gleysols
Hydrophobicity
Multiple soil types
soil organic carbon
Soil organic matter composition
Soil organic matter lability
soil quality
soil texture
Water repellency
Water-extractable organic carbon
Title Soil organic matter qualification with FTIR spectroscopy under different soil types in Estonia
URI https://dx.doi.org/10.1016/j.geodrs.2022.e00483
https://www.proquest.com/docview/2636696341
Volume 28
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