Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming
The soil oxygen diffusion coefficient (Ds) was determined for structured topsoil (0.1 m) and subsoil (0.3 m) samples of a clayey and a silty marshland soil, classified as Haplic Gleysol. The undisturbed soil samples were equilibrated to a soil matric potential equal to -6 kPa, excavated 7, 12, an...
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Format: | Article |
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Bulgarian Soil Science Society
2023-06-01
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Series: | Bulgarian Journal of Soil Science |
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Online Access: | https://www.bsss.bg/issues/Issue1_2023/BJSS_2023_1_1.pdf |
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author | Christoph Haas Rainer Horn |
author_facet | Christoph Haas Rainer Horn |
author_sort | Christoph Haas |
collection | DOAJ |
description | The soil oxygen diffusion coefficient (Ds) was determined for structured topsoil (0.1
m) and subsoil (0.3 m) samples of a clayey and a silty marshland soil, classified as Haplic
Gleysol. The undisturbed soil samples were equilibrated to a soil matric potential equal to -6
kPa, excavated 7, 12, and ≥24 months after liming with a double chamber system. No lime,
and either limestone (CaCO3) or quicklime (CaO) was incorporated each in two intensities
into the ploughed topsoils at two sampling sites. In combination with the values of the airfilled and total porosities, and with the help of a linear fitting factor, f, measured gas diffusion
coefficients were fitted to the Millington-Quirk (MQ) tortuosity model to better match
simulated and measured Ds values. Seven months after lime application, the f–values ranged
between 0.013 and 0.500, indicating a more tortuous pore systems than predicted by the MQ
model (f = 1). The f–values increased continuously with time or were highest 12 to ≥24
months after CaO application for the topsoils. For each subsoil, the values were in the same
order of magnitude after 7 and 12 months and increased ≥24 months after lime application.
The results show, that the soil macropore tortuosity as reflected by the f–value is highly
dynamic at the time and spatial domains. The direct effects of liming on the f–values cannot
be determined due to several interactions between liming and biotic, abiotic, and
management-induced soil aggregate formation processes. The results indicate that the f–
values increased with liming and that lime-induced soil structural changes are not spatially
restricted to the topsoil layer where the lime had been applied. |
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institution | Directory Open Access Journal |
issn | 2534-8787 2367-9212 |
language | English |
last_indexed | 2024-03-12T17:30:07Z |
publishDate | 2023-06-01 |
publisher | Bulgarian Soil Science Society |
record_format | Article |
series | Bulgarian Journal of Soil Science |
spelling | doaj.art-e9fc33e917674a6396687cba77908acf2023-08-05T04:42:43ZengBulgarian Soil Science SocietyBulgarian Journal of Soil Science2534-87872367-92122023-06-018132110.5281/zenodo.8216508Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including LimingChristoph Haas0Rainer Horn1Institute for Plant Nutrition and Soil Science, University of KielInstitute for Plant Nutrition and Soil Science, University of KielThe soil oxygen diffusion coefficient (Ds) was determined for structured topsoil (0.1 m) and subsoil (0.3 m) samples of a clayey and a silty marshland soil, classified as Haplic Gleysol. The undisturbed soil samples were equilibrated to a soil matric potential equal to -6 kPa, excavated 7, 12, and ≥24 months after liming with a double chamber system. No lime, and either limestone (CaCO3) or quicklime (CaO) was incorporated each in two intensities into the ploughed topsoils at two sampling sites. In combination with the values of the airfilled and total porosities, and with the help of a linear fitting factor, f, measured gas diffusion coefficients were fitted to the Millington-Quirk (MQ) tortuosity model to better match simulated and measured Ds values. Seven months after lime application, the f–values ranged between 0.013 and 0.500, indicating a more tortuous pore systems than predicted by the MQ model (f = 1). The f–values increased continuously with time or were highest 12 to ≥24 months after CaO application for the topsoils. For each subsoil, the values were in the same order of magnitude after 7 and 12 months and increased ≥24 months after lime application. The results show, that the soil macropore tortuosity as reflected by the f–value is highly dynamic at the time and spatial domains. The direct effects of liming on the f–values cannot be determined due to several interactions between liming and biotic, abiotic, and management-induced soil aggregate formation processes. The results indicate that the f– values increased with liming and that lime-induced soil structural changes are not spatially restricted to the topsoil layer where the lime had been applied.https://www.bsss.bg/issues/Issue1_2023/BJSS_2023_1_1.pdfarable soilgas transportmillington-quirkpore connectivitydiffusivitylime treatment |
spellingShingle | Christoph Haas Rainer Horn Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming Bulgarian Journal of Soil Science arable soil gas transport millington-quirk pore connectivity diffusivity lime treatment |
title | Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming |
title_full | Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming |
title_fullStr | Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming |
title_full_unstemmed | Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming |
title_short | Temporal and Spatial Variability of the Soil Macropore Tortuosity of Marshland Soils in Northern Germany as Influenced by Soil Management Including Liming |
title_sort | temporal and spatial variability of the soil macropore tortuosity of marshland soils in northern germany as influenced by soil management including liming |
topic | arable soil gas transport millington-quirk pore connectivity diffusivity lime treatment |
url | https://www.bsss.bg/issues/Issue1_2023/BJSS_2023_1_1.pdf |
work_keys_str_mv | AT christophhaas temporalandspatialvariabilityofthesoilmacroporetortuosityofmarshlandsoilsinnortherngermanyasinfluencedbysoilmanagementincludingliming AT rainerhorn temporalandspatialvariabilityofthesoilmacroporetortuosityofmarshlandsoilsinnortherngermanyasinfluencedbysoilmanagementincludingliming |