Effects of biobased fertilisers on soil physical, chemical and biological indicators – a one-year incubation study
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Effects of biobased fertilisers on soil physical, chemical and biological indicators – a one-year incubation study. / Wester-Larsen, Lærke; Jensen, Lars Stoumann; Jensen, Johannes Lund; Müller-Stöver, Dorette Sophie.
In: Soil Research, Vol. 62, No. 3, SR23213, 2024.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Effects of biobased fertilisers on soil physical, chemical and biological indicators – a one-year incubation study
AU - Wester-Larsen, Lærke
AU - Jensen, Lars Stoumann
AU - Jensen, Johannes Lund
AU - Müller-Stöver, Dorette Sophie
N1 - Publisher Copyright: © 2024 The Author(s) (or their employer(s)).
PY - 2024
Y1 - 2024
N2 - Soil quality is declining in Europe and globally due to agricultural practices and climate change. The European market for novel biobased fertilisers (BBFs) is growing and the new European Union fertiliser regulation promotes their use. However, knowledge about the effects of many novel BBFs on soil quality is currently very limited. In a one-year laboratory incubation experiment, this study aimed to test the effect on biological (microbial biomass carbon (C)), physical (clay dispersibility and water-holding capacity) and chemical (pH, cation exchange capacity (CEC), total C and C in soil size fractions (<250, 50–250 and >50 μm)) soil quality indicators of 10 BBFs applied at two different rates on two soil types: an Arenosol and a Luvisol. The set-up also included a soil that was subjected to long-term annual application of the compost used in the incubation. The application of BBFs generally improved soil quality, with the compost material improving soil quality most, followed by a plant-based fertiliser and a biogas digestate. The effect of BBF application on CEC, total C and particulate organic matter (POM) was related to the amount of total C added with the BBF. Furthermore, the effect on total C and POM fractions was also related to easily decomposable C added with the BBF. Comparing the single accelerated application with annual application under field conditions indicated that the long-term incubation trial is a reasonable predictor of compost long-term effects in the field. Whether this applies to BBFs with very different properties remains to be shown.
AB - Soil quality is declining in Europe and globally due to agricultural practices and climate change. The European market for novel biobased fertilisers (BBFs) is growing and the new European Union fertiliser regulation promotes their use. However, knowledge about the effects of many novel BBFs on soil quality is currently very limited. In a one-year laboratory incubation experiment, this study aimed to test the effect on biological (microbial biomass carbon (C)), physical (clay dispersibility and water-holding capacity) and chemical (pH, cation exchange capacity (CEC), total C and C in soil size fractions (<250, 50–250 and >50 μm)) soil quality indicators of 10 BBFs applied at two different rates on two soil types: an Arenosol and a Luvisol. The set-up also included a soil that was subjected to long-term annual application of the compost used in the incubation. The application of BBFs generally improved soil quality, with the compost material improving soil quality most, followed by a plant-based fertiliser and a biogas digestate. The effect of BBF application on CEC, total C and particulate organic matter (POM) was related to the amount of total C added with the BBF. Furthermore, the effect on total C and POM fractions was also related to easily decomposable C added with the BBF. Comparing the single accelerated application with annual application under field conditions indicated that the long-term incubation trial is a reasonable predictor of compost long-term effects in the field. Whether this applies to BBFs with very different properties remains to be shown.
KW - carbon size fractions
KW - cation exchange capacity
KW - clay dispersibility
KW - microbial biomass
KW - pH
KW - soil organic matter
KW - total carbon
KW - water-holding capacity
U2 - 10.1071/SR23213
DO - 10.1071/SR23213
M3 - Journal article
AN - SCOPUS:85188168192
VL - 62
JO - Soil Research
JF - Soil Research
SN - 1838-675X
IS - 3
M1 - SR23213
ER -
ID: 389366050