Variabilidade espacial dos parâmetros da equação de van Genuchten em um Latossolo Vermelho-Amarelo

Mota, Jaedson Claúdio Anunciato; Libardi, Paulo Leonel; Brito, Alexsandro dos Santos; Moraes, Sérgio Oliveira; Nascimento, Ícaro Vasconcelos do; Alencar, Thiago Leite de

doi:10.18227/1982-8470ragro.v11i2.4023

Cited by 2 publications

(1 citation statement)

References 9 publications

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“…In Brazilian soil physics literature, several authors relate the inverse of parameter α to the air-entry pressure, in analogy to the BC parameter h b . Some use this kind of identification when describing VG parameters (Souza et al, 2008a;Lima et al, 2014;Oliveira Júnior et al, 2014), others when explicitly interpreting results of α values to the air-entry pressure (Souza et al, 2008b;Silva et al, 2009;Mota et al, 2017). In international literature, a similar description can sometimes be found (Pollaco and Mohanty, 2012;Aschonitis and Antonopoulos, 2013;Aschonitis et al, 2015;Dokoohaki et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

An Alert Regarding a Common Misinterpretation of the Van Genuchten α Parameter

Lier

Pinheiro

2018

Rev. Bras. Ciênc. Solo

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Among the equations available to describe the relation between matric potential and soil water content, the soil water retention function, the most commonly used is the equation proposed by Van Genuchten in his 1980 landmark paper. In soil physics literature, especially in Brazil, several authors relate the inverse of the Van Genuchten parameter α to the air-entry pressure. This study aimed to show this common interpretation to be erroneous, as 1/α corresponds to water contents lower than saturation. The deviation depends on the m parameter. In fact, α is merely a scaling parameter relative to the matric potential axis. Recognizing this mathematical fact may improve the interpretation of soil hydraulic properties based on water retention parameters.

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Section: Introductionmentioning

confidence: 99%

An Alert Regarding a Common Misinterpretation of the Van Genuchten α Parameter

Lier

Pinheiro

2018

Rev. Bras. Ciênc. Solo

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Biochar as a sustainable alternative to açaí waste disposal in Amazon, Brazil

Sato

Lima

Costa

et al. 2020

Process Safety and Environmental Protection

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The açaí palm (Euterpe oleracea Mart) is native to the floodplains of central and South America and is cultivated in Brazil for its berries, which are considered to be a 'superfood'. The waste açaí fiber and seeds obtained after fruit processing pose a challenge since they remain unutilised despite being an abundant waste by-product of açaí processing.This leads to a build-up of waste, regular dumping and environmental management challenges. Here we examine the potential use of açaí seed biochar as a soil conditioner. The biochar was produced from waste seeds in a handmade kiln, incorporated into two soils of different textures and then compacted in volumetric rings with a hydraulic press. The samples were kept in a greenhouse for a 270-day incubation period. After this, the samples were evaluated for their soil physical and chemical attributes. Nine months after the application of the açaí seed biochar, soil physical properties were not affected, except for the soil aggregate size distribution, for which the highest dosage resulted in a larger weighted average diameter. However, biochar increased phosphorus, potassium and magnesium contents, and reduced the aluminum content, which was reflected in an increase of the base saturation and a reduction in aluminum saturation. Therefore, within a relatively short time period, the biochar was found to improve soil chemical quality more so than soil physical properties, thus offering potential as a sustainable solution to manage açaí waste in the Amazon region.

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Variabilidade espacial dos parâmetros da equação de van Genuchten em um Latossolo Vermelho-Amarelo

Cited by 2 publications

References 9 publications

An Alert Regarding a Common Misinterpretation of the Van Genuchten α Parameter

An Alert Regarding a Common Misinterpretation of the Van Genuchten α Parameter

Biochar as a sustainable alternative to açaí waste disposal in Amazon, Brazil

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