Does long-term application of mineral fertilizers improve physical properties and nutrient regime of sandy soils?

In modern agriculture, mineral fertilizers are considered to be a significant enhancing factor. They promote soil fertility, particularly in sandy soils. Farmers should be aware of the effects of fertilizers on the soil environment. Here, we report the results of three long-term experiments with dur...

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Bibliographic Details
Published in:Soil & tillage research 2022-01, Vol.215, p.105224, Article 105224
Main Authors: Šimanský, Vladimír, Jonczak, Jerzy, Horváthová, Jarmila, Igaz, Dušan, Aydın, Elena, Kováčik, Peter
Format: Article
Language:English
Subjects:
Bulk density
Long-term mineral fertilization
Nutrients
Planosol
Porosity
Soil moisture
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Summary:In modern agriculture, mineral fertilizers are considered to be a significant enhancing factor. They promote soil fertility, particularly in sandy soils. Farmers should be aware of the effects of fertilizers on the soil environment. Here, we report the results of three long-term experiments with durations of 25, 41 and 94 years conducted in a sandy soil at the experimental station of the Warsaw University of Life Sciences – SGGW in Skierniewice, Poland. The soil physical properties and nutrient regime were monitored under a set of experimental treatments: Control – no fertilizer, NPK – NPK fertilizers, CaNPK – CaNPK fertilizers in the 41-year and 94-year-long experiments, and FYM – farmyard manure as control, FYM+NPK – farmyard manure+NPK fertilizers and FYM+CaNPK – farmyard manure+CaNPK fertilizers in the 25-year-long experiment. Only the 41-year-long experiment showed a significant decrease in bulk density by 7% under NPK treatment compared to control. Total and available P increased significantly across experiments and fertilization treatments compared with the corresponding controls, most remarkably in the 41-year-long experiment. In the 94-year-long experiment, total Ca and Mg rose by 168% and 45% under CaNPK treatment, respectively, relative to the control. Total organic carbon increased considerably across experiments. Similarly, total N and S increased in NPK treatment significantly by 67% and 56%, respectively compared with the control in the 41-year-long experiment. Overall, the highest number of correlations between soil physical properties and nutrient content was determined in the 94-year-long experiment. The obtained results show positive effects of FYM on the content of soil nutrients. •Bulk density and porosity were not higher than the threshold limits in all long-term experiments (LTEs).•Higher total P and Ca resulted in their higher available forms in LTEs.•In all LTEs, the mineral fertilization increased TOC.•The positive effect of FYM on the content of soil nutrients was observed.•The favourable nutrient ratios can be responsible for the improvement of soil properties in sandy soils.
ISSN:0167-1987
1879-3444
DOI:10.1016/j.still.2021.105224