Land use impacts on weathering, soil properties, and carbon storage in wet Andosols, Indonesia
- Author
- Sastrika Anindita, Steven Sleutel (UGent) , Dimitri Vandenberghe (UGent) , Johan De Grave (UGent) , Veerle Vandenhende (UGent) and Peter Finke (UGent)
- Organization
- Project
- Abstract
- We investigated changes in geochemical soil properties in response to deposition age and land use management over 30 - 50 years on tropical volcanic soils. Our purpose was to find out how weathering stage and land use interactively affect soil properties and organic carbon, and to check if phenoforms (management-related soil subtypes) exist within the genoforms (genetic soil types). Soil samples were taken at land uses that have been converted (pine forest and agricultural land) and a natural forest as the original land use. The results showed that pine forest soil displayed more intense weathering as indicated by higher values of three weathering indices. Intensive agricultural practices also improved soil chemical properties such as pH, exchangeable base cations, base saturation, and organic carbon stock leading to WRB-qualifier of "eutric" in cultivated soils, whereas the average of bulk density was relatively similar between forests and cultivated soils. Positive correlations were found between amorphous materials and Al-o, specific surface area, and micropore volume. Correlations between the content of short-range order Al (hydr-) oxides (indicated by Al-o) and organic carbon were found in pine forest and agricultural soils, particularly in subsoils. Our results clearly indicate the increase of base cations retention due to less acidification and an increase of organic carbon stock under agricultural land use, likely due to stabilization with non-crystalline materials.
- Keywords
- Land use change, Volcanic soils, Weathering, Soil properties, Organic carbon
Downloads
-
(...).pdf
- full text (Published version)
- |
- UGent only
- |
- |
- 6.36 MB
-
PF Clean revised manuscript. Sastrika Anindita.docx
- full text (Accepted manuscript)
- |
- open access
- |
- ZIP archive
- |
- 202.53 KB
Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8757005
- MLA
- Anindita, Sastrika, et al. “Land Use Impacts on Weathering, Soil Properties, and Carbon Storage in Wet Andosols, Indonesia.” GEODERMA, vol. 423, 2022, doi:10.1016/j.geoderma.2022.115963.
- APA
- Anindita, S., Sleutel, S., Vandenberghe, D., De Grave, J., Vandenhende, V., & Finke, P. (2022). Land use impacts on weathering, soil properties, and carbon storage in wet Andosols, Indonesia. GEODERMA, 423. https://doi.org/10.1016/j.geoderma.2022.115963
- Chicago author-date
- Anindita, Sastrika, Steven Sleutel, Dimitri Vandenberghe, Johan De Grave, Veerle Vandenhende, and Peter Finke. 2022. “Land Use Impacts on Weathering, Soil Properties, and Carbon Storage in Wet Andosols, Indonesia.” GEODERMA 423. https://doi.org/10.1016/j.geoderma.2022.115963.
- Chicago author-date (all authors)
- Anindita, Sastrika, Steven Sleutel, Dimitri Vandenberghe, Johan De Grave, Veerle Vandenhende, and Peter Finke. 2022. “Land Use Impacts on Weathering, Soil Properties, and Carbon Storage in Wet Andosols, Indonesia.” GEODERMA 423. doi:10.1016/j.geoderma.2022.115963.
- Vancouver
- 1.Anindita S, Sleutel S, Vandenberghe D, De Grave J, Vandenhende V, Finke P. Land use impacts on weathering, soil properties, and carbon storage in wet Andosols, Indonesia. GEODERMA. 2022;423.
- IEEE
- [1]S. Anindita, S. Sleutel, D. Vandenberghe, J. De Grave, V. Vandenhende, and P. Finke, “Land use impacts on weathering, soil properties, and carbon storage in wet Andosols, Indonesia,” GEODERMA, vol. 423, 2022.
@article{8757005,
abstract = {{We investigated changes in geochemical soil properties in response to deposition age and land use management over 30 - 50 years on tropical volcanic soils. Our purpose was to find out how weathering stage and land use interactively affect soil properties and organic carbon, and to check if phenoforms (management-related soil subtypes) exist within the genoforms (genetic soil types). Soil samples were taken at land uses that have been converted (pine forest and agricultural land) and a natural forest as the original land use. The results showed that pine forest soil displayed more intense weathering as indicated by higher values of three weathering indices. Intensive agricultural practices also improved soil chemical properties such as pH, exchangeable base cations, base saturation, and organic carbon stock leading to WRB-qualifier of "eutric" in cultivated soils, whereas the average of bulk density was relatively similar between forests and cultivated soils. Positive correlations were found between amorphous materials and Al-o, specific surface area, and micropore volume. Correlations between the content of short-range order Al (hydr-) oxides (indicated by Al-o) and organic carbon were found in pine forest and agricultural soils, particularly in subsoils. Our results clearly indicate the increase of base cations retention due to less acidification and an increase of organic carbon stock under agricultural land use, likely due to stabilization with non-crystalline materials.}},
articleno = {{115963}},
author = {{Anindita, Sastrika and Sleutel, Steven and Vandenberghe, Dimitri and De Grave, Johan and Vandenhende, Veerle and Finke, Peter}},
issn = {{0016-7061}},
journal = {{GEODERMA}},
keywords = {{Land use change,Volcanic soils,Weathering,Soil properties,Organic carbon}},
language = {{eng}},
pages = {{14}},
title = {{Land use impacts on weathering, soil properties, and carbon storage in wet Andosols, Indonesia}},
url = {{http://doi.org/10.1016/j.geoderma.2022.115963}},
volume = {{423}},
year = {{2022}},
}
- Altmetric
- View in Altmetric
- Web of Science
- Times cited: