Linkages between aggregate formation, porosity and soil chemical properties

Linkages between soil structure and physical–chemical soil properties are still poorly understood due to the wide size-range at which aggregation occurs and the variety of aggregation factors involved. To improve understanding of these processes, we collected data on aggregate fractions, soil porosi...

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Published inGeoderma Vol. 247-248; pp. 24 - 37
Main Authors Regelink, Inge C., Stoof, Cathelijne R., Rousseva, Svetla, Weng, Liping, Lair, Georg J., Kram, Pavel, Nikolaidis, Nikolaos P., Kercheva, Milena, Banwart, Steve, Comans, Rob N.J.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2015
Subjects
adsorption
Aggregate stability
coagulation
Critical Zone Observatories
data collection
field-flow fractionation
humic-acid
iron
Iron-(hydr)oxides
iron-oxides
micropores
mineral surfaces
minerals
natural organic-matter
oxides
phosphate adsorption
Porosity
size classes
soil chemical properties
soil organic carbon
Soil organic matter
soil texture
stability
texture
tropical soils
Water retention
water-retention capacity
Soil organic matter
Critical Zone Observatories
Water retention
Aggregate stability
Porosity
Iron-(hydr)oxides
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Abstract Linkages between soil structure and physical–chemical soil properties are still poorly understood due to the wide size-range at which aggregation occurs and the variety of aggregation factors involved. To improve understanding of these processes, we collected data on aggregate fractions, soil porosity, texture and chemical soil properties of 127 soil samples from three European Critical Zone Observatories. First, we assessed mechanistic linkages between porosity and aggregates. There was no correlation between the fractions of dry-sieved aggregates (>1mm, DSA) and water-stable aggregates (>0.25μm, WSA). Soil microporosity and micro+mesoporosity increased with increasing abundance of aggregates, though this correlation was only significant for the WSA fraction. The fraction of DSA did not affect the overall porosity of the soil, but affected the ratio between micro- and mesopores (θ30kPa/θ0.25kPa), suggesting that micropores are dominantly located within DSA whereas mesopores are located in between DSA and loose particles. Second, we studied the relations between the physical and chemical soil properties and soil structure. Soil texture had only a minor effect on the fractions of WSA and DSA whereas Fe-(hydr)oxide content was correlated positively with both WSA fraction and porosity. This may be attributed to Fe-(hydr)oxides providing adsorption sites for organic substances on larger minerals, thereby enabling poorly reactive mineral particles to be taken up in the network of organic substances. The fraction of WSA increased with an increase in the soil organic carbon (SOC) and Fe-(hydr)oxides content and with a decrease in pH. This pH-effect can be explained by the enhanced coagulation of organically-coated particles at a lower pH. Overall, this study indicates that mechanistic linkages exist between soil chemical properties, aggregate formation and soil porosity. •We studied the linkages between aggregate formation, porosity and soil chemical properties.•The combination of texture and water-stable aggregates determines the porosity.•Dry-sieved aggregates control the distribution of pores between micro- and mesopores.•Fe-(hydr)oxides are important for the formation of pores and water-stable aggregates.•The combination of Fe-(hydr)oxides, soil organic matter and pH controls aggregate formation.
AbstractList Linkages between soil structure and physical–chemical soil properties are still poorly understood due to the wide size-range at which aggregation occurs and the variety of aggregation factors involved. To improve understanding of these processes, we collected data on aggregate fractions, soil porosity, texture and chemical soil properties of 127 soil samples from three European Critical Zone Observatories. First, we assessed mechanistic linkages between porosity and aggregates. There was no correlation between the fractions of dry-sieved aggregates (>1mm, DSA) and water-stable aggregates (>0.25μm, WSA). Soil microporosity and micro+mesoporosity increased with increasing abundance of aggregates, though this correlation was only significant for the WSA fraction. The fraction of DSA did not affect the overall porosity of the soil, but affected the ratio between micro- and mesopores (θ30kPa/θ0.25kPa), suggesting that micropores are dominantly located within DSA whereas mesopores are located in between DSA and loose particles. Second, we studied the relations between the physical and chemical soil properties and soil structure. Soil texture had only a minor effect on the fractions of WSA and DSA whereas Fe-(hydr)oxide content was correlated positively with both WSA fraction and porosity. This may be attributed to Fe-(hydr)oxides providing adsorption sites for organic substances on larger minerals, thereby enabling poorly reactive mineral particles to be taken up in the network of organic substances. The fraction of WSA increased with an increase in the soil organic carbon (SOC) and Fe-(hydr)oxides content and with a decrease in pH. This pH-effect can be explained by the enhanced coagulation of organically-coated particles at a lower pH. Overall, this study indicates that mechanistic linkages exist between soil chemical properties, aggregate formation and soil porosity. •We studied the linkages between aggregate formation, porosity and soil chemical properties.•The combination of texture and water-stable aggregates determines the porosity.•Dry-sieved aggregates control the distribution of pores between micro- and mesopores.•Fe-(hydr)oxides are important for the formation of pores and water-stable aggregates.•The combination of Fe-(hydr)oxides, soil organic matter and pH controls aggregate formation.
Linkages between soil structure and physical–chemical soil properties are still poorly understood due to the wide size-range at which aggregation occurs and the variety of aggregation factors involved. To improve understanding of these processes, we collected data on aggregate fractions, soil porosity, texture and chemical soil properties of 127 soil samples from three European Critical Zone Observatories. First, we assessed mechanistic linkages between porosity and aggregates. There was no correlation between the fractions of dry-sieved aggregates (N1 mm, DSA) and water-stable aggregates (N0.25 µm, WSA). Soil microporosity and micro + mesoporosity increased with increasing abundance of aggregates, though this correlation was only significant for the WSA fraction. The fraction of DSA did not affect the overall porosity of the soil, but affected the ratio between micro- and mesopores (¿30 kPa/¿0.25 kPa), suggesting that micropores are dominantly located within DSA whereas mesopores are located in betweenDSA and loose particles. Second,we studied the relations between the physical and chemical soil properties and soil structure. Soil texture had only a minor effect on the fractions ofWSA and DSAwhereas Fe-(hydr)oxide content was correlated positively with bothWSA fraction and porosity. This may be attributed to Fe-(hydr)oxides providing adsorption sites for organic substances on larger minerals, thereby enabling poorly reactive mineral particles to be taken up in the network of organic substances. The fraction ofWSA increased with an increase in the soil organic carbon (SOC) and Fe-(hydr)oxides content and with a decrease in pH. This pH-effect can be explained by the enhanced coagulation of organically-coated particles at a lower pH. Overall, this study indicates that mechanistic linkages exist between soil chemical properties, aggregate formation and soil porosity.
Linkages between soil structure and physical–chemical soil properties are still poorly understood due to the wide size-range at which aggregation occurs and the variety of aggregation factors involved. To improve understanding of these processes, we collected data on aggregate fractions, soil porosity, texture and chemical soil properties of 127 soil samples from three European Critical Zone Observatories. First, we assessed mechanistic linkages between porosity and aggregates. There was no correlation between the fractions of dry-sieved aggregates (>1mm, DSA) and water-stable aggregates (>0.25μm, WSA). Soil microporosity and micro+mesoporosity increased with increasing abundance of aggregates, though this correlation was only significant for the WSA fraction. The fraction of DSA did not affect the overall porosity of the soil, but affected the ratio between micro- and mesopores (θ30kPa/θ0.25kPa), suggesting that micropores are dominantly located within DSA whereas mesopores are located in between DSA and loose particles. Second, we studied the relations between the physical and chemical soil properties and soil structure. Soil texture had only a minor effect on the fractions of WSA and DSA whereas Fe-(hydr)oxide content was correlated positively with both WSA fraction and porosity. This may be attributed to Fe-(hydr)oxides providing adsorption sites for organic substances on larger minerals, thereby enabling poorly reactive mineral particles to be taken up in the network of organic substances. The fraction of WSA increased with an increase in the soil organic carbon (SOC) and Fe-(hydr)oxides content and with a decrease in pH. This pH-effect can be explained by the enhanced coagulation of organically-coated particles at a lower pH. Overall, this study indicates that mechanistic linkages exist between soil chemical properties, aggregate formation and soil porosity.
Author Kram, Pavel
Comans, Rob N.J.
Rousseva, Svetla
Weng, Liping
Nikolaidis, Nikolaos P.
Banwart, Steve
Lair, Georg J.
Kercheva, Milena
Stoof, Cathelijne R.
Regelink, Inge C.
Author_xml – sequence: 1
  givenname: Inge C.
  orcidid: 0000-0002-5309-8131
  surname: Regelink
  fullname: Regelink, Inge C.
  organization: Department of Soil Quality, Wageningen University, P.O. Box 47, 6700 AA Wageningen, The Netherlands
– sequence: 2
  givenname: Cathelijne R.
  surname: Stoof
  fullname: Stoof, Cathelijne R.
  organization: Department of Soil Quality, Wageningen University, P.O. Box 47, 6700 AA Wageningen, The Netherlands
– sequence: 3
  givenname: Svetla
  surname: Rousseva
  fullname: Rousseva, Svetla
  organization: Institute of Soil Science, Agrotechnology and Plant Protection, N. Poushkarov, Shosse Bankya Str. 7, 1080 Sofia, Bulgaria
– sequence: 4
  givenname: Liping
  surname: Weng
  fullname: Weng, Liping
  email: liping.weng@wur.nl
  organization: Department of Soil Quality, Wageningen University, P.O. Box 47, 6700 AA Wageningen, The Netherlands
– sequence: 5
  givenname: Georg J.
  surname: Lair
  fullname: Lair, Georg J.
  organization: Institute of Soil Research, University of Natural Resources and Applied Life Sciences, Peter-Jordan-Str. 82, 1190 Vienna, Austria
– sequence: 6
  givenname: Pavel
  surname: Kram
  fullname: Kram, Pavel
  organization: Department of Environmental Geochemistry and Biogeochemistry, Czech Geological Survey, Klarov 3, 11821 Prague 1, Czech Republic
– sequence: 7
  givenname: Nikolaos P.
  surname: Nikolaidis
  fullname: Nikolaidis, Nikolaos P.
  organization: School of Environmental Engineering, Technical University of Crete, University campus, 73100 Chania, Greece
– sequence: 8
  givenname: Milena
  surname: Kercheva
  fullname: Kercheva, Milena
  organization: Institute of Ecology, University of Innsbruck, Sternwartestr. 15, 6020 Innsbruck, Austria
– sequence: 9
  givenname: Steve
  surname: Banwart
  fullname: Banwart, Steve
  organization: Department of Environmental Geochemistry and Biogeochemistry, Czech Geological Survey, Klarov 3, 11821 Prague 1, Czech Republic
– sequence: 10
  givenname: Rob N.J.
  surname: Comans
  fullname: Comans, Rob N.J.
  organization: Department of Soil Quality, Wageningen University, P.O. Box 47, 6700 AA Wageningen, The Netherlands
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Critical Zone Observatories
Water retention
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Porosity
Iron-(hydr)oxides
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Snippet Linkages between soil structure and physical–chemical soil properties are still poorly understood due to the wide size-range at which aggregation occurs and...
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SubjectTerms adsorption
Aggregate stability
coagulation
Critical Zone Observatories
data collection
field-flow fractionation
humic-acid
iron
Iron-(hydr)oxides
iron-oxides
micropores
mineral surfaces
minerals
natural organic-matter
oxides
phosphate adsorption
Porosity
size classes
soil chemical properties
soil organic carbon
Soil organic matter
soil texture
stability
texture
tropical soils
Water retention
water-retention capacity
Title Linkages between aggregate formation, porosity and soil chemical properties
URI https://dx.doi.org/10.1016/j.geoderma.2015.01.022
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