Soil roughness indexes and their relationship with water erosion

Zangiski, Fernanda; Miquelluti, David José; Bertol, Ildegardis; Ramos, Júlio César

doi:10.1590/s0100-204x2018000600012

Cited by 4 publications

(3 citation statements)

References 16 publications

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“…Path coefficient analysis between the basic water loss (WL) variable with the explanatory variables studied, for the treatments with soil cover (HCR and HCV) and surface roughness (HRR, HRV and BHR), in an Inceptisol Table 4. Path coefficient analysis between the runoff velocity of flow (RV) variable with the explanatory variables studied, for the treatments with soil cover (HCR and HCV) and surface roughness (HRR, HRV and BHR), in an Inceptisol WC01 and WC12 -Soil water content in the layers 0-0.10 and 0.10-0.20 m, respectively; TOC -Total organic carbon; GMD -Geometric mean diameter; BD -Soil bulk density; Mi -Micropores; Ma -Macropores; CWI -Constant water infiltration rate; SC -Soil cover; RR -Random surface roughness; ERM -Estimated root mass; r -Pearson's correlation 2-mm variation in the RR index was reflected by SL variations above 10 Mg ha -1 , which agreed with Zangiski et al (2018).…”

Section: Resultssupporting

confidence: 73%

“…The lowest random surface roughness (RR) value occurred in the uncultured and scarified soil (BHR, 9 mm); this was low in relation to the average of the scarified treatments containing roots (Table 1). This is justified by the low GMD (stability of aggregates in water) and because of the lack of cultivation, which reduced soil resistance to disaggregation in the BHR (Zangiski et al, 2018).…”

Section: Resultsmentioning

confidence: 99%

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Path coefficient analysis, a different approach to identify soil quality indicators

Ramos

Bertol

Bandeira

et al. 2019

Rev. bras. eng. agríc. ambient.

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Soil quality indicators related to water erosion reduction can assist with correct soil management. The objective of this research was to identify some variables that could be used as soil quality indicators with the aid of path coefficient analysis in order to reduce water erosion. The research was carried out in the field between May 2011 and April 2013 in southern Brazil on an Inceptisol. The following treatments were studied under simulated rainfall conditions: 1) no-tilled, cultivated and covered by cultural residue of ryegrass (Lolium multiflorum) (HCR); 2) no-tilled, cultivated and covered by crop residue of vetch (Vicia sativa) (HCV); 3) cultivated and scarified soil containing ryegrass roots (HRR); 4) cultivated and scarified soil containing vetch roots (HRV); and 5) bare and chiselled soil (BHR). Eight simulated rainfalls were applied in each treatment. Flow velocity, soil and water losses as well as variables or soil attributes influenced by management were quantified. Path coefficient analysis verified that the coverage, surface roughness, water infiltration rate and total organic carbon have the greatest direct or indirect relationships with soil and water losses or runoff velocity. These variables were indicative of soil quality, particularly its resistance to water erosion. In a rough soil, the total organic carbon, root mass and macroporosity of the soil are more important as indicators for soil resistance to water erosion.

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Section: Resultssupporting

confidence: 73%

Section: Resultsmentioning

confidence: 99%

Path coefficient analysis, a different approach to identify soil quality indicators

Ramos

Bertol

Bandeira

et al. 2019

Rev. bras. eng. agríc. ambient.

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“…Além destes benefícios a conservação dos resíduos vegetais na superfície do solo pode interceptar as gotas de chuva, diminuindo o impacto e evitando a desagregação de partículas (DECHEN et al, 2015). Assim, sistemas conservacionistas que promovam pequena ou nenhuma movimentação mecânica do solo, que mantém grande parte dos resíduos das culturas sobre o solo e que eleva a rugosidade superficial são mais eficientes no que se refere ao controle das perdas de solo e água por erosão hídrica (ZANGISKI et al, 2018). Nesse sentido, algumas pesquisas têm sido realizadas com o objetivo de avaliar como as diferentes formas de manejo têm influenciado no processo de perda de solo e de água (PANACHUKI et al, 2011;PRAZERES et al, 2020;BRAMORSKI;CRESTANA, 2020).…”

Section: Introductionunclassified

Sistema Santa Fé auxilia na redução do escoamento superficial e melhoria da qualidade da água?

et al. 2021

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The cover crop on the soil surface is a fundamental practice for the establishment of soil and water conservation systems.The Santa Fé System consists of the inclusion of forage species in the grain production system, mainly by intercropping. The objective of the study was to evaluate the effect of cultivation of single maize and maize in consortium with U. brizantha cv. marandu, in runoff and qualityof runoffusing a rainfall simulator.The experiment was carried out at the School Farm of the IF Goiano Campus Iporá in a Quartzipsament, in a Brazilian Savanna region.The following land coverwere evaluated: uncoveredsoil, single hybrid corn and SantaFé System. For the determination of the runoff volume and the runoff quality, three tests were performed in each treatment, using a pendulum rainfall simulator built at the IF Goiano Campus Iporá. In each test, the total volume of runoffwas counted and every five minutes samples were collected to characterize the runoffquality, in which turbidity, pH and electrical conductivity were analyzed.Water losses were reduced by 82% and turbidity by 96% in the Santa Fé system, compared to uncoveredsoil.The Santa Fé System showed better performance with less runoff volume and better quality of runoff when turbidity was evaluated, which demonstrates its high potential in minimizing soil water erosion.

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Mapping potential groundwater accumulation zones for Karachi city using GIS and AHP techniques

Ahmad

Hasan

Jilani

et al. 2023

Environ Monit Assess

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Soil roughness indexes and their relationship with water erosion

Cited by 4 publications

References 16 publications

Path coefficient analysis, a different approach to identify soil quality indicators

Path coefficient analysis, a different approach to identify soil quality indicators

Sistema Santa Fé auxilia na redução do escoamento superficial e melhoria da qualidade da água?

Mapping potential groundwater accumulation zones for Karachi city using GIS and AHP techniques

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