The Swedish long-term soil fertility experiment , R3-9001, Vreta Kloster
Local identifier
R3-9001, E-9-1966
Years operational
1966—
Objective
To investigate if the long-term productivity of an agricultural soil can be increased by using mineral fertilizers. Focus is on the influence of the natural conditions of the site compared to the influence of management practices. What factors are the most important for long-term productivity: fertilization, crop rotation, or natural circumstances? In addition, the soils resilience against nutrient impoverishment and intensive crop production is tested.
Description
In 1957 the first long-term soil fertility experiments were established at different locations in the southernmost region of Sweden, Skåne. In 1963 and 1966 additional experiments were started in central Sweden. In 2021 nine soil fertility experiments remain active, located at Fjärdingslöv, Orup, Borgeby and Ekebo in the southern region, and Bjertorp, Vreta Kloster, Högåsa, Kungsängen and Fors in the central region.
In the experiments two cropping systems are tested, one representing a typical farm with livestock and one representing a typical farm with no animals, referred to as crop rotation I and II, respectively. Crop rotation I receives a combination of cattle manure and mineral fertilizers, and straw and plant residues is removed from the field. In crop rotation II only mineral fertilizers are used and straw and plant residues is left on the field after harvest. Both crop rotations receive four levels of nitrogen addition and four levels of PK addition. Crop samples are collected every year and topsoil samples every 4th year in the south region and every 6th year in the central region.
Contact [email protected] or Hushållningssällskapet Östergötland
https://hushallningssallskapet.se/alla-sallskap/valj-sallskap/ostergotland/kontakt-oss/
Design period:
Description
Two cropping systems are tested, one representing a typical farm with livestock and one representing a typical farm with no animals, referred to as crop rotation I and II, respectively. Crop rotation I receives a combination of cattle manure and mineral fertilizers, and straw and plant residues is removed from the field. In crop rotation II only mineral fertilizers are used and straw and plant residues is left on the field after harvest. Both crop rotations receive four levels of nitrogen addition and four levels of PK addition.
Design description
Four blocks, two with crop rotation I+manure+straw removed and two with crop rotation II+no manure+straw left on field. Blocks split into subplots with four levels of N addition and four levels of PK addition. P and K is linked, i.e. no P = no K etc. Total 64 plots.
Number of replicates
2
Number of harvests per year
1
Crops
Crop
Years grown
spring barley
grass clover leys
winter wheat
oats
linseed
Crop Rotations
Crop rotation I, with livestock
1
spring barley
2
grass clover leys
one cut
3
grass clover leys
two cuts
4
winter wheat
5
oats
6
winter wheat
Crop rotation II, no livestock
1
spring barley
2
oats
3
linseed
4
winter wheat
5
oats
6
winter wheat
Factors
Factor name
Factor levels
nitrogen fertilizer exposure
N1 (0 )
N2 (41 kgN/ha)
Application frequency: annually
N3 (82 kgN/ha)
Application frequency: annually
N4 (125 kgN/ha)
Application frequency: annually
phosphate fertilizer exposure
Linked with K exposure
P0 (0 )
P replacement (replacement kgP/ha)
Chemical form: triple superphosphate
"Replacement" means that the same amount of P that is removed by harvest is returned during the following crop rotation.
P replacement plus low (replacement + 20 kgP/ha)
Chemical form: triple superphosphate
"Replacement" means that the same amount of P that is removed by harvest is returned during the following crop rotation.
P replacement plus high (replacement + 30 kgP/ha)
Chemical form: triple superphosphate
"Replacement" means that the same amount of P that is removed by harvest is returned during the following crop rotation.
potassium fertilizer exposure
Linked with P exposure
K0 (0 )
K replacement (replacement kgK/ha)
Chemical form: potassium chloride
"Replacement" means that the same amount of K that is removed by harvest is returned during the following crop rotation.
K replacement plus low (replacement + 50 kgK/ha)
Chemical form: potassium chloride
"Replacement" means that the same amount of K that is removed by harvest is returned during the following crop rotation.
K replacement plus high (replacement + 80 kgK/ha)
Chemical form: potassium chloride
"Replacement" means that the same amount of K that is removed by harvest is returned during the following crop rotation.
farmyard manure exposure
slurry (30 t/ha)
Only in crop rotation I. Applied in autumn after ley year II.