Exploration of soil micromorphology to identify coarse-sized OM assemblages in X-ray CT images of undisturbed cultivated soil cores

Research output: Contribution to journalArticleResearchpeer review

Authors

  • N. Elyeznasni
  • F. Sellami
  • V. Pot
  • P. Benoit
  • L. Vieublé-Gonod
  • I. Young
  • S. Peth

External Research Organisations

  • Institut national de recherche pour l’agriculture, l’alimentation et l’environnement (INRAE)
  • Grand Sud-Ouest
  • Abertay University
  • University of New England NSW
  • Kiel University
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Details

Original languageEnglish
Pages (from-to)38-45
Number of pages8
JournalGEODERMA
Volume179-180
Publication statusPublished - Jun 2012
Externally publishedYes

Abstract

We proposed to use micromorphology to help identify coarse-sized organic matter (OM) in X-ray computed tomography (CT) images of fresh undisturbed soil cores. We sampled three soil columns (5-cm diameter, 5-cm height) in the interfurrows that mainly contain macroporosity and straw residues of the ploughed horizon of a silt loamy Albeluvisol. Two of the samples were X-ray scanned at 68 and 88. μm voxel-resolution, and three thin-sections were performed in one of the scanned columns. Retention curve was measured on the third soil column. Micromorphology observations showed macropores from very fine to coarse size and numerous mesopores were heterogeneously distributed in the soil matrix and concentrations of OM of increasing stages of decomposition within and around the macroporosity. CT images easily detected coarse-sized OM concentrations and recovered part of the discontinuous pattern of the coarse-sized OM fragments in the macroporosity. We defined a table of correspondence between the structural features (porosity) and organo-mineral features of size down to about 40. μm and the grey level values of the scanned image. The values of the thresholds were adjusted from the micromorphological observations and the porosities of the 3D segmented images compared well with the measured porosity of the third soil column. The main limitation of the method was in choosing the threshold values separating pores and coarse-sized OM in order to recover the porosity of the zones containing the coarse-sized OM features. The proposed method is a preliminary work that showed to be well suited for undisturbed soil samples containing large pieces of straw residues incompletely mixed with soil matrix but cannot be applied to the identification of fine-sized OM.

Keywords

    Micromorphology, Soil organic matter, Undisturbed soil samples, X-ray computed tomography

ASJC Scopus subject areas

Cite this

Exploration of soil micromorphology to identify coarse-sized OM assemblages in X-ray CT images of undisturbed cultivated soil cores. / Elyeznasni, N.; Sellami, F.; Pot, V. et al.
In: GEODERMA, Vol. 179-180, 06.2012, p. 38-45.

Research output: Contribution to journalArticleResearchpeer review

Elyeznasni N, Sellami F, Pot V, Benoit P, Vieublé-Gonod L, Young I et al. Exploration of soil micromorphology to identify coarse-sized OM assemblages in X-ray CT images of undisturbed cultivated soil cores. GEODERMA. 2012 Jun;179-180:38-45. doi: 10.1016/j.geoderma.2012.02.023
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title = "Exploration of soil micromorphology to identify coarse-sized OM assemblages in X-ray CT images of undisturbed cultivated soil cores",
abstract = "We proposed to use micromorphology to help identify coarse-sized organic matter (OM) in X-ray computed tomography (CT) images of fresh undisturbed soil cores. We sampled three soil columns (5-cm diameter, 5-cm height) in the interfurrows that mainly contain macroporosity and straw residues of the ploughed horizon of a silt loamy Albeluvisol. Two of the samples were X-ray scanned at 68 and 88. μm voxel-resolution, and three thin-sections were performed in one of the scanned columns. Retention curve was measured on the third soil column. Micromorphology observations showed macropores from very fine to coarse size and numerous mesopores were heterogeneously distributed in the soil matrix and concentrations of OM of increasing stages of decomposition within and around the macroporosity. CT images easily detected coarse-sized OM concentrations and recovered part of the discontinuous pattern of the coarse-sized OM fragments in the macroporosity. We defined a table of correspondence between the structural features (porosity) and organo-mineral features of size down to about 40. μm and the grey level values of the scanned image. The values of the thresholds were adjusted from the micromorphological observations and the porosities of the 3D segmented images compared well with the measured porosity of the third soil column. The main limitation of the method was in choosing the threshold values separating pores and coarse-sized OM in order to recover the porosity of the zones containing the coarse-sized OM features. The proposed method is a preliminary work that showed to be well suited for undisturbed soil samples containing large pieces of straw residues incompletely mixed with soil matrix but cannot be applied to the identification of fine-sized OM.",
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note = "Funding Information: This work benefited from financial support from an innovative project of the Environment and Agronomy Department of INRA and the French ANR project ANR-09-SYSCOMM MEPSOM . We acknowledge Veolia Environment group for financial support of the QUALIAGRO field site where soil were sampled. Christophe Labat is thanked for his technical help in the retention curve measurement.",
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TY - JOUR

T1 - Exploration of soil micromorphology to identify coarse-sized OM assemblages in X-ray CT images of undisturbed cultivated soil cores

AU - Elyeznasni, N.

AU - Sellami, F.

AU - Pot, V.

AU - Benoit, P.

AU - Vieublé-Gonod, L.

AU - Young, I.

AU - Peth, S.

N1 - Funding Information: This work benefited from financial support from an innovative project of the Environment and Agronomy Department of INRA and the French ANR project ANR-09-SYSCOMM MEPSOM . We acknowledge Veolia Environment group for financial support of the QUALIAGRO field site where soil were sampled. Christophe Labat is thanked for his technical help in the retention curve measurement.

PY - 2012/6

Y1 - 2012/6

N2 - We proposed to use micromorphology to help identify coarse-sized organic matter (OM) in X-ray computed tomography (CT) images of fresh undisturbed soil cores. We sampled three soil columns (5-cm diameter, 5-cm height) in the interfurrows that mainly contain macroporosity and straw residues of the ploughed horizon of a silt loamy Albeluvisol. Two of the samples were X-ray scanned at 68 and 88. μm voxel-resolution, and three thin-sections were performed in one of the scanned columns. Retention curve was measured on the third soil column. Micromorphology observations showed macropores from very fine to coarse size and numerous mesopores were heterogeneously distributed in the soil matrix and concentrations of OM of increasing stages of decomposition within and around the macroporosity. CT images easily detected coarse-sized OM concentrations and recovered part of the discontinuous pattern of the coarse-sized OM fragments in the macroporosity. We defined a table of correspondence between the structural features (porosity) and organo-mineral features of size down to about 40. μm and the grey level values of the scanned image. The values of the thresholds were adjusted from the micromorphological observations and the porosities of the 3D segmented images compared well with the measured porosity of the third soil column. The main limitation of the method was in choosing the threshold values separating pores and coarse-sized OM in order to recover the porosity of the zones containing the coarse-sized OM features. The proposed method is a preliminary work that showed to be well suited for undisturbed soil samples containing large pieces of straw residues incompletely mixed with soil matrix but cannot be applied to the identification of fine-sized OM.

AB - We proposed to use micromorphology to help identify coarse-sized organic matter (OM) in X-ray computed tomography (CT) images of fresh undisturbed soil cores. We sampled three soil columns (5-cm diameter, 5-cm height) in the interfurrows that mainly contain macroporosity and straw residues of the ploughed horizon of a silt loamy Albeluvisol. Two of the samples were X-ray scanned at 68 and 88. μm voxel-resolution, and three thin-sections were performed in one of the scanned columns. Retention curve was measured on the third soil column. Micromorphology observations showed macropores from very fine to coarse size and numerous mesopores were heterogeneously distributed in the soil matrix and concentrations of OM of increasing stages of decomposition within and around the macroporosity. CT images easily detected coarse-sized OM concentrations and recovered part of the discontinuous pattern of the coarse-sized OM fragments in the macroporosity. We defined a table of correspondence between the structural features (porosity) and organo-mineral features of size down to about 40. μm and the grey level values of the scanned image. The values of the thresholds were adjusted from the micromorphological observations and the porosities of the 3D segmented images compared well with the measured porosity of the third soil column. The main limitation of the method was in choosing the threshold values separating pores and coarse-sized OM in order to recover the porosity of the zones containing the coarse-sized OM features. The proposed method is a preliminary work that showed to be well suited for undisturbed soil samples containing large pieces of straw residues incompletely mixed with soil matrix but cannot be applied to the identification of fine-sized OM.

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KW - Soil organic matter

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KW - X-ray computed tomography

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VL - 179-180

SP - 38

EP - 45

JO - GEODERMA

JF - GEODERMA

SN - 0016-7061

ER -

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