Physical indicators of soil erosion, aggregate stability and erodibility

Nciizah, Adornis D.; Wakindiki, Isaiah I.C.

doi:10.1080/03650340.2014.956660

Cited by 60 publications

(28 citation statements)

References 57 publications

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“…Soil aggregate size and stability are also used to characterize soil structure because those indicators are correlated with several soil functions, including gas exchange and C sequestration through physical protection of soil organic matter (SOM) [4]. Aggregate stability (AS) provides a good indicator of soil erosion potential since reduced AS increases susceptibility to crusting and runoff while also reducing soil permeability to air, water and roots [7,8]. A third key indicator of soil structure is penetration resistance (PR) which is directly correlated with root growth [9].…”

Section: Introductionmentioning

confidence: 99%

Tillage Intensity Effects on Soil Structure Indicators—A US Meta-Analysis

2020

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Tillage intensity affects soil structure in many ways but the magnitude and type (+/−) of change depends on site-specific (e.g., soil type) and experimental details (crop rotation, study length, sampling depth, etc.). This meta-analysis examines published effects of chisel plowing (CP), no-tillage (NT) and perennial cropping systems (PER) relative to moldboard plowing (MP) on three soil structure indicators: wet aggregate stability (AS), bulk density (BD) and soil penetration resistance (PR). The data represents four depth increments (from 0 to >40-cm) in 295 studies from throughout the continental U.S. Overall, converting from MP to CP did not affect those soil structure indicators but reducing tillage intensity from MP to NT increased AS in the surface (<15-cm) and slightly decreased BD and PR below 25-cm. The largest positive effect of NT on AS was observed within Inceptisols and Entisols after a minimum of three years. Compared to MP, NT had a minimal effect on soil compaction indicators (BD and PR) but as expected, converting from MP to PER systems improved soil structure at all soil depths (0 to >40-cm). Among those three soil structure indicators, AS was the most sensitive to management practices; thus, it should be used as a physical indicator for overall soil health assessment. In addition, based on this national meta-analysis, we conclude that reducing tillage intensity improves soil structure, thus offering producers assurance those practices are feasible for crop production and that they will also help sustain soil resources.

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Section: Introductionmentioning

confidence: 99%

Tillage Intensity Effects on Soil Structure Indicators—A US Meta-Analysis

2020

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“…Use of AS as an erodibility index however has shown complex behaviour (Bryan, 2000). Previous research revealed that its performance varied between soils (non-cohesive versus cohesive), between rainfall events (impact of previous rainstorms and crusting, re-establishment of coherence after tillage), and by particular erosion processes at stake (splash versus rill erosion) ( Barthès and Roose, 2002;Materechera, 2009;Nciizah and Wakindiki, 2015;Ding and Zhang, 2016). The use of various disruptive forces to assess AS, forces that may or may not correspond to field conditions (Almajmaie et al, 2017a(Almajmaie et al, , 2017b adds to this complexity.…”

Section: Introductionmentioning

confidence: 99%

Estimation of aggregate stability of some soils in the loam belt of Belgium using mid-infrared spectroscopy

Afriyie

Verdoodt

Mouazen

2020

Science of The Total Environment

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“…The soils were classified according to USDA Soil Taxonomy (Soil Survey Staff, 2014) and World Reference Base (WRB) for soil resources (FAO, 2014). The classifications were correlated with the local series classification of soils (Moss, 1957).…”

Section: Laboratory Analysis and Soil Classificationmentioning

confidence: 99%

“…Though in arable cropping, more emphasis is placed on the surface texture as it influences workability, nutrient and water retention, the subsurface texture is of much importance with respect to nutrient adsorption, water infiltration and susceptibility to leaching. Soil texture therefore influences the soil's inherent fertility and directly or indirectly, erodibility and moisture characteristics which could have great impacts on soil management, rooting ability and crop yields (Jalota et al, 2010;Nciizah and Wakindiki, 2015). The chemical properties revealed that a available P is generally deficient as none of the pedons contains the required critical level of 15 mg/kg (Fernandes and Soratto, 2012) for sustainable arable cropping.…”

Section: Soil Classification and Land Characteristicsmentioning

confidence: 99%

Suitability evaluation of some peri-urban soils for rainfed arable crop production in Lagos State, Southwestern Nigeria

Orimoloye¹,

Egbinola²

2019

Eurasian Journal of Soil Science (Ejss)

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A study was carried out to evaluate the suitability of some Peri-urban soils in Lagos state for arable crop production. Six pedons classified as Alagba (Rhodic Hapludult), Dodokindo (Plinthic Kandiudult), Idesan (Typic Endoaquept), Owode (Typic Kandiudult), Atan (Fluvaquentic Endoaquept) and Pakoto (Plinthic Kandiudult) Series identified at two study sites located at Igbokuta and Ibomwon communities in Ikorodu and Epe Local Government Areas of Lagos state were evaluated. The land use potentials for maize, cassava and leafy vegetables (Amaranth family) were assessed following the conventional non-parametric and the parametric (square root) methods of land suitability evaluation according to the revised FAO framework. All the pedons were rated as marginally suitable (S3) for maize except Idesan and Owode Series that made up 2.53% and 34.74% of the total area respectively, which were rated moderately suitable (S2). With respect to cassava and leafy vegetables, all the pedons were rated marginally suitable (S3) except Atan Series occupying 19.71 % of the total area, that was rated non-suitable (N1). The major limitations to sustainable crop production in all pedons were low nutrient supply (N, K, P and cations) coupled with high soil acidity (pH of between 3.9 and 5.8). In addition to this, Idesan and Atan series also have waterlogging problem hence may not be used for cultivating the afore-mentioned crops, but could be used for swamp rice. With appropriate liming, soil fertility management and proper drainage, most of the pedons may be rated as being moderately suitable (S2) for the cultivation of these crops. As a peri-urban area with high demand for agricultural products, year-round cropping with irrigation facilities is quite promising in most of the pedons studied.

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Physical indicators of soil erosion, aggregate stability and erodibility

Cited by 60 publications

References 57 publications

Tillage Intensity Effects on Soil Structure Indicators—A US Meta-Analysis

Tillage Intensity Effects on Soil Structure Indicators—A US Meta-Analysis

Estimation of aggregate stability of some soils in the loam belt of Belgium using mid-infrared spectroscopy

Suitability evaluation of some peri-urban soils for rainfed arable crop production in Lagos State, Southwestern Nigeria

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