Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties, classification, and indicators of early pedogenesis

Large amounts of fossil fuel combustion wastes (e.g. fly and bottom ash) are discharged on land surface all over the world. The uppermost layer of disposal sites is subject to soil-forming processes after the development of plant cover due to natural succession or reclamation works. The present stud...

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Published inCatena (Giessen) Vol. 157; pp. 75 - 89
Main Authors Uzarowicz, Łukasz, Zagórski, Zbigniew, Mendak, Emilia, Bartmiński, Piotr, Szara, Ewa, Kondras, Marek, Oktaba, Lidia, Turek, Agnieszka, Rogoziński, Radosław
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2017
Subjects
A horizons
aluminum
Bottom ash
carbonates
Fly ash
fuel combustion
humans
iron
landfills
leaching
lignite
manganese
oxalates
Pedogenesis
Poland
ponds
silicon
soil formation
soil organic matter
soil structure
Technosols
vegetation
wastes
weather
World Reference Base for Soil Resources
WRB
Poland
Pedogenesis
Fly ash
Bottom ash
Technosols
WRB
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Abstract Large amounts of fossil fuel combustion wastes (e.g. fly and bottom ash) are discharged on land surface all over the world. The uppermost layer of disposal sites is subject to soil-forming processes after the development of plant cover due to natural succession or reclamation works. The present study presents the analysis of technogenic soils (Technosols) developed from ashes after combustion of bituminous coal and lignite. The study involved the determination of their properties, their classification, and discussion of the indicators of early pedogenesis. Technosols located on the surface of settling ponds and landfills of selected thermal power stations in Poland combusting both bituminous coal and lignite were examined. Standard pedological methods for the determination of soil morphology and physical-chemical properties were applied. Dithionite and oxalate extractions of Fe, Al, Si, and Mn were used in order to determine transformations of soil substrate during pedogenesis. Moreover, optical microscope observations permitted finding microscale effects of soil-forming processes in the studied Technosols. The properties of the analysed Technosols are primarily influenced by the properties of the parent material (i.e. ash from thermal power stations) which in turn are strongly dependent on (1) the type of ash (fly ash vs. bottom ash), (2) the kind of fuel (bituminous coal vs. lignite), as well as (3) the mode of ash deposition and type of disposal site (settling pond vs. dry landfill). Properties of the studied soils are also controlled by the following soil-forming factors: vegetation (input of soil organic matter), human (acceleration of soil-forming processes by reclamation), and climatic/weather conditions (leaching of soluble compounds by water from precipitation). The most important morphological and physical-chemical indicators of pedogenesis of the studied Technosols over several decades of soil formation are as follows: (1) the development of soil structure in A horizon related to the accumulation of soil organic matter, (2) the decrease in pH (a change in reaction from strongly alkaline towards less alkaline or acidic), (3) the formation of pedogenic carbonates and their subsequent leaching from the topsoil after several dozen of years of pedogenesis, and (4) the release of oxalate-extractable Al and Si during the pedogenesis. The studied soils were classified according to WRB as Spolic Technosols (or Leptic Spolic Technosols) with various supplementary qualifiers (Alcalic or Eutric, Arenic and/or Loamic, Calcic or Protocalcic, Fluvic, Hyperartefactic, Laxic, Relocatic, Tephric or Vitric). Certain suggestions to improve the WRB soil system are discussed in the paper. •Pedogenesis leads to transformation of fresh fly and bottom ash into a Technosol.•Nature of ashes influences future soil physical and chemical properties.•Morphology of soils changes and soil structure develops due to accumulation of SOM.•Chemical transformations involve e.g. decrease of alkalinity and formation of CaCO3.•The list of supplementary qualifiers for Technosols in WRB needs to be supplemented.
AbstractList Large amounts of fossil fuel combustion wastes (e.g. fly and bottom ash) are discharged on land surface all over the world. The uppermost layer of disposal sites is subject to soil-forming processes after the development of plant cover due to natural succession or reclamation works. The present study presents the analysis of technogenic soils (Technosols) developed from ashes after combustion of bituminous coal and lignite. The study involved the determination of their properties, their classification, and discussion of the indicators of early pedogenesis. Technosols located on the surface of settling ponds and landfills of selected thermal power stations in Poland combusting both bituminous coal and lignite were examined. Standard pedological methods for the determination of soil morphology and physical-chemical properties were applied. Dithionite and oxalate extractions of Fe, Al, Si, and Mn were used in order to determine transformations of soil substrate during pedogenesis. Moreover, optical microscope observations permitted finding microscale effects of soil-forming processes in the studied Technosols. The properties of the analysed Technosols are primarily influenced by the properties of the parent material (i.e. ash from thermal power stations) which in turn are strongly dependent on (1) the type of ash (fly ash vs. bottom ash), (2) the kind of fuel (bituminous coal vs. lignite), as well as (3) the mode of ash deposition and type of disposal site (settling pond vs. dry landfill). Properties of the studied soils are also controlled by the following soil-forming factors: vegetation (input of soil organic matter), human (acceleration of soil-forming processes by reclamation), and climatic/weather conditions (leaching of soluble compounds by water from precipitation). The most important morphological and physical-chemical indicators of pedogenesis of the studied Technosols over several decades of soil formation are as follows: (1) the development of soil structure in A horizon related to the accumulation of soil organic matter, (2) the decrease in pH (a change in reaction from strongly alkaline towards less alkaline or acidic), (3) the formation of pedogenic carbonates and their subsequent leaching from the topsoil after several dozen of years of pedogenesis, and (4) the release of oxalate-extractable Al and Si during the pedogenesis. The studied soils were classified according to WRB as Spolic Technosols (or Leptic Spolic Technosols) with various supplementary qualifiers (Alcalic or Eutric, Arenic and/or Loamic, Calcic or Protocalcic, Fluvic, Hyperartefactic, Laxic, Relocatic, Tephric or Vitric). Certain suggestions to improve the WRB soil system are discussed in the paper.
Large amounts of fossil fuel combustion wastes (e.g. fly and bottom ash) are discharged on land surface all over the world. The uppermost layer of disposal sites is subject to soil-forming processes after the development of plant cover due to natural succession or reclamation works. The present study presents the analysis of technogenic soils (Technosols) developed from ashes after combustion of bituminous coal and lignite. The study involved the determination of their properties, their classification, and discussion of the indicators of early pedogenesis. Technosols located on the surface of settling ponds and landfills of selected thermal power stations in Poland combusting both bituminous coal and lignite were examined. Standard pedological methods for the determination of soil morphology and physical-chemical properties were applied. Dithionite and oxalate extractions of Fe, Al, Si, and Mn were used in order to determine transformations of soil substrate during pedogenesis. Moreover, optical microscope observations permitted finding microscale effects of soil-forming processes in the studied Technosols. The properties of the analysed Technosols are primarily influenced by the properties of the parent material (i.e. ash from thermal power stations) which in turn are strongly dependent on (1) the type of ash (fly ash vs. bottom ash), (2) the kind of fuel (bituminous coal vs. lignite), as well as (3) the mode of ash deposition and type of disposal site (settling pond vs. dry landfill). Properties of the studied soils are also controlled by the following soil-forming factors: vegetation (input of soil organic matter), human (acceleration of soil-forming processes by reclamation), and climatic/weather conditions (leaching of soluble compounds by water from precipitation). The most important morphological and physical-chemical indicators of pedogenesis of the studied Technosols over several decades of soil formation are as follows: (1) the development of soil structure in A horizon related to the accumulation of soil organic matter, (2) the decrease in pH (a change in reaction from strongly alkaline towards less alkaline or acidic), (3) the formation of pedogenic carbonates and their subsequent leaching from the topsoil after several dozen of years of pedogenesis, and (4) the release of oxalate-extractable Al and Si during the pedogenesis. The studied soils were classified according to WRB as Spolic Technosols (or Leptic Spolic Technosols) with various supplementary qualifiers (Alcalic or Eutric, Arenic and/or Loamic, Calcic or Protocalcic, Fluvic, Hyperartefactic, Laxic, Relocatic, Tephric or Vitric). Certain suggestions to improve the WRB soil system are discussed in the paper. •Pedogenesis leads to transformation of fresh fly and bottom ash into a Technosol.•Nature of ashes influences future soil physical and chemical properties.•Morphology of soils changes and soil structure develops due to accumulation of SOM.•Chemical transformations involve e.g. decrease of alkalinity and formation of CaCO3.•The list of supplementary qualifiers for Technosols in WRB needs to be supplemented.
Author Uzarowicz, Łukasz
Kondras, Marek
Bartmiński, Piotr
Mendak, Emilia
Szara, Ewa
Zagórski, Zbigniew
Oktaba, Lidia
Rogoziński, Radosław
Turek, Agnieszka
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  organization: Warsaw University of Life Sciences - SGGW, Faculty of Agriculture and Biology, Department of Soil Environment Sciences, ul. Nowoursynowska 159, building no. 37, 02-776 Warsaw, Poland
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  givenname: Zbigniew
  surname: Zagórski
  fullname: Zagórski, Zbigniew
  organization: Warsaw University of Life Sciences - SGGW, Faculty of Agriculture and Biology, Department of Soil Environment Sciences, ul. Nowoursynowska 159, building no. 37, 02-776 Warsaw, Poland
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  surname: Mendak
  fullname: Mendak, Emilia
  organization: Warsaw University of Life Sciences - SGGW, Faculty of Agriculture and Biology, Department of Soil Environment Sciences, ul. Nowoursynowska 159, building no. 37, 02-776 Warsaw, Poland
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  surname: Bartmiński
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  organization: Maria Curie-Skłodowska University (UMCS), Faculty of Earth Sciences and Spatial Management, Department of Soil Science and Soil Protection, Al. Kraśnicka 2 cd, 20-718 Lublin, Poland
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  givenname: Ewa
  surname: Szara
  fullname: Szara, Ewa
  organization: Warsaw University of Life Sciences - SGGW, Faculty of Agriculture and Biology, Department of Soil Environment Sciences, ul. Nowoursynowska 159, building no. 37, 02-776 Warsaw, Poland
– sequence: 6
  givenname: Marek
  surname: Kondras
  fullname: Kondras, Marek
  organization: Warsaw University of Life Sciences - SGGW, Faculty of Agriculture and Biology, Department of Soil Environment Sciences, ul. Nowoursynowska 159, building no. 37, 02-776 Warsaw, Poland
– sequence: 7
  givenname: Lidia
  surname: Oktaba
  fullname: Oktaba, Lidia
  organization: Warsaw University of Life Sciences - SGGW, Faculty of Agriculture and Biology, Department of Soil Environment Sciences, ul. Nowoursynowska 159, building no. 37, 02-776 Warsaw, Poland
– sequence: 8
  givenname: Agnieszka
  surname: Turek
  fullname: Turek, Agnieszka
  organization: Warsaw University of Technology, Faculty of Geodesy and Cartography, Department of Spatial Planning and Environmental Sciences, pl. Politechniki 1, 00-661 Warsaw, Poland
– sequence: 9
  givenname: Radosław
  surname: Rogoziński
  fullname: Rogoziński, Radosław
  organization: Warsaw University of Technology, Faculty of Geodesy and Cartography, Department of Spatial Planning and Environmental Sciences, pl. Politechniki 1, 00-661 Warsaw, Poland
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Keywords Pedogenesis
Fly ash
Bottom ash
Technosols
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Snippet Large amounts of fossil fuel combustion wastes (e.g. fly and bottom ash) are discharged on land surface all over the world. The uppermost layer of disposal...
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SubjectTerms A horizons
aluminum
Bottom ash
carbonates
Fly ash
fuel combustion
humans
iron
landfills
leaching
lignite
manganese
oxalates
Pedogenesis
Poland
ponds
silicon
soil formation
soil organic matter
soil structure
Technosols
vegetation
wastes
weather
World Reference Base for Soil Resources
WRB
Title Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties, classification, and indicators of early pedogenesis
URI https://dx.doi.org/10.1016/j.catena.2017.05.010
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