Long-term application of different organic and inorganic fertilizers in no-tillage crops changes the soil microstructural viscoelasticity and shear resistance to transient stresses

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Authors

  • Amanda Romeiro Alves
  • Dörthe Holthusen
  • Carina Marchezan
  • Gustavo Brunetto
  • Stephan Peth
  • José Miguel Reichert

Research Organisations

External Research Organisations

  • Universidade Federal de Santa Maria
  • German Federal Institute of Hydrology (BfG)
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Details

Original languageEnglish
Article numbere13037
JournalSoil use and management
Volume40
Issue number1
Publication statusPublished - 27 Mar 2024

Abstract

The processes involved in deformation, internal strength and stability of soils with long-term application of fertilizers (organic and inorganic sources) remain poorly investigated and hence understood, particularly in agricultural systems under subtropical climatic conditions. We investigated how long-term fertilizer management with organic and inorganic amendments in no-till crops affects the microstructural stability of a sandy Alfisol under oscillatory shear. The study was conducted in southern Brazil on a 17-year completely randomized block experiment with five fertilizer treatments: pig slurry (PS), cattle slurry (CS), pig deep litter (PDL), mineral fertilizer (MF) and control, i.e. unfertilized (CL). Soil samples were collected from two layers (0–5 and 5–15 cm) for physical and chemical analyses and evaluation of soil rheological properties under oscillatory shear at two matric potentials (0 and −10 kPa). Organic matter accumulation in soil provided by the PDL and CS fertilizers resulted in higher soil stability and elasticity under oscillatory shear, especially in the 0–5 cm layer. Conversely, MF and PS enhanced the soil susceptibility towards deformation under transient stresses, mainly in the 0–5 cm layer under saturated conditions. The PDL significantly increased soil shear resistance under low-shear strain conditions. Significant differences ceased under high-shear strain conditions, though PS and MF yielded at significantly lower strains. Hence, under subtropical conditions, long-term application of organic fertilizers with fibrous components promoted soil microstructure strengthening, reducing soil susceptibility to erosive processes and compaction.

Keywords

    fertilizer management, soil strengthening, subtropical climate, sustainable agriculture

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Long-term application of different organic and inorganic fertilizers in no-tillage crops changes the soil microstructural viscoelasticity and shear resistance to transient stresses. / Alves, Amanda Romeiro; Holthusen, Dörthe; Marchezan, Carina et al.
In: Soil use and management, Vol. 40, No. 1, e13037, 27.03.2024.

Research output: Contribution to journalArticleResearchpeer review

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title = "Long-term application of different organic and inorganic fertilizers in no-tillage crops changes the soil microstructural viscoelasticity and shear resistance to transient stresses",
abstract = "The processes involved in deformation, internal strength and stability of soils with long-term application of fertilizers (organic and inorganic sources) remain poorly investigated and hence understood, particularly in agricultural systems under subtropical climatic conditions. We investigated how long-term fertilizer management with organic and inorganic amendments in no-till crops affects the microstructural stability of a sandy Alfisol under oscillatory shear. The study was conducted in southern Brazil on a 17-year completely randomized block experiment with five fertilizer treatments: pig slurry (PS), cattle slurry (CS), pig deep litter (PDL), mineral fertilizer (MF) and control, i.e. unfertilized (CL). Soil samples were collected from two layers (0–5 and 5–15 cm) for physical and chemical analyses and evaluation of soil rheological properties under oscillatory shear at two matric potentials (0 and −10 kPa). Organic matter accumulation in soil provided by the PDL and CS fertilizers resulted in higher soil stability and elasticity under oscillatory shear, especially in the 0–5 cm layer. Conversely, MF and PS enhanced the soil susceptibility towards deformation under transient stresses, mainly in the 0–5 cm layer under saturated conditions. The PDL significantly increased soil shear resistance under low-shear strain conditions. Significant differences ceased under high-shear strain conditions, though PS and MF yielded at significantly lower strains. Hence, under subtropical conditions, long-term application of organic fertilizers with fibrous components promoted soil microstructure strengthening, reducing soil susceptibility to erosive processes and compaction.",
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T1 - Long-term application of different organic and inorganic fertilizers in no-tillage crops changes the soil microstructural viscoelasticity and shear resistance to transient stresses

AU - Alves, Amanda Romeiro

AU - Holthusen, Dörthe

AU - Marchezan, Carina

AU - Brunetto, Gustavo

AU - Peth, Stephan

AU - Reichert, José Miguel

N1 - The first author thanks the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Capes) and the Deutscher Akademischer Austauschdienst (DAAD) for their scholarship support. The authors thank the RITES-FAPERGS 22/2551-0000392-3 ‘Low Carbon Agriculture Adapted to Climate Changes in Rio Grande do Sul’ project and the CNPq-INCT Low Carbon Agriculture Project (406635/2022-6) for their financial support.

PY - 2024/3/27

Y1 - 2024/3/27

N2 - The processes involved in deformation, internal strength and stability of soils with long-term application of fertilizers (organic and inorganic sources) remain poorly investigated and hence understood, particularly in agricultural systems under subtropical climatic conditions. We investigated how long-term fertilizer management with organic and inorganic amendments in no-till crops affects the microstructural stability of a sandy Alfisol under oscillatory shear. The study was conducted in southern Brazil on a 17-year completely randomized block experiment with five fertilizer treatments: pig slurry (PS), cattle slurry (CS), pig deep litter (PDL), mineral fertilizer (MF) and control, i.e. unfertilized (CL). Soil samples were collected from two layers (0–5 and 5–15 cm) for physical and chemical analyses and evaluation of soil rheological properties under oscillatory shear at two matric potentials (0 and −10 kPa). Organic matter accumulation in soil provided by the PDL and CS fertilizers resulted in higher soil stability and elasticity under oscillatory shear, especially in the 0–5 cm layer. Conversely, MF and PS enhanced the soil susceptibility towards deformation under transient stresses, mainly in the 0–5 cm layer under saturated conditions. The PDL significantly increased soil shear resistance under low-shear strain conditions. Significant differences ceased under high-shear strain conditions, though PS and MF yielded at significantly lower strains. Hence, under subtropical conditions, long-term application of organic fertilizers with fibrous components promoted soil microstructure strengthening, reducing soil susceptibility to erosive processes and compaction.

AB - The processes involved in deformation, internal strength and stability of soils with long-term application of fertilizers (organic and inorganic sources) remain poorly investigated and hence understood, particularly in agricultural systems under subtropical climatic conditions. We investigated how long-term fertilizer management with organic and inorganic amendments in no-till crops affects the microstructural stability of a sandy Alfisol under oscillatory shear. The study was conducted in southern Brazil on a 17-year completely randomized block experiment with five fertilizer treatments: pig slurry (PS), cattle slurry (CS), pig deep litter (PDL), mineral fertilizer (MF) and control, i.e. unfertilized (CL). Soil samples were collected from two layers (0–5 and 5–15 cm) for physical and chemical analyses and evaluation of soil rheological properties under oscillatory shear at two matric potentials (0 and −10 kPa). Organic matter accumulation in soil provided by the PDL and CS fertilizers resulted in higher soil stability and elasticity under oscillatory shear, especially in the 0–5 cm layer. Conversely, MF and PS enhanced the soil susceptibility towards deformation under transient stresses, mainly in the 0–5 cm layer under saturated conditions. The PDL significantly increased soil shear resistance under low-shear strain conditions. Significant differences ceased under high-shear strain conditions, though PS and MF yielded at significantly lower strains. Hence, under subtropical conditions, long-term application of organic fertilizers with fibrous components promoted soil microstructure strengthening, reducing soil susceptibility to erosive processes and compaction.

KW - fertilizer management

KW - soil strengthening

KW - subtropical climate

KW - sustainable agriculture

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ER -

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