Contribution of non-exchangeable potassium forms and its accumulation in corn plants

Vieira, Montesquieu da Silva; Oliveira, Fábio Henrique Tavares de; Santos, Hemmannuella Costa; Medeiros, Jailma dos Santos de

doi:10.1590/1807-1929/agriambi.v20n1p9-15

Cited by 8 publications

(6 citation statements)

References 13 publications

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“…According to Velde and Peck (2002), these limits are determined mainly by the mineralogy of soils. The results presented here for the exchangeable K and non-exchangeable K in the soils (Figure 4) confirmed the results reported by Fraga et al (2009), Vieira et al (2016) and Rosolem, Vicentini and Steiner (2012). These authors showed that the non-exchangeable K pool could maintain or even enhance soil exchangeable K reserves in the long term.…”

Section: Soil Potassium Poolssupporting

confidence: 90%

“…In lowland soils of Rio Grande do Sul, Brazil, Fraga et al (2009) found that non-exchangeable K contribution to the K nutrition of rice plants ranged 12 to 72% in the treatments no fertilized and fertilized with K fertilizer, respectively. The exploitation of K pools initially considered nonexchangeable for plants has been commonly reported in the literature, even in scenarios involving K fertilizer application (VIEIRA et al, 2016;LANA, 2018). Rosolem, Vicentini, and Steiner (2012) found that the nonexchangeable K pools were the main sources of the nutrient for successive cropping of ruzigrass [Urochloa ruziziensis (Syn.…”

Section: Non-exchangeable K Contributionmentioning

confidence: 99%

“…Potassium concentration in soil solution and as exchangeable K (readily available pools) is relatively low (0.1 to 2.0% of total K) and corresponds to crop demand during only a few years of intense cropping VICENTINI;STEINER, 2012;STEINER et al, 2015). When solution K and exchangeable K are reduced to low levels by plant uptake and/or leaching, nonexchangeable K can be released from clay interlayers and contribute significantly to plant K nutrition in some soils VICENTINI;STEINER 2012;VIEIRA et al, 2016;BILIAS;BARBAYIANNIS, 2018). Therefore, for sustainable crop production, the available K must be continually replenished through non-exchangeable and mineral K reserves.…”

Section: Introductionmentioning

confidence: 99%

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Potassium supplying capacity of some lowland soils under potassium fertilization and successive croppings

et al. 2020

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The effects of intense cropping and potassium fertilization on potassium (K) dynamics and non-exchangeable K release from three lowland soils of Paraná State, Brazil, were investigated in this study. Samples of three lowland soils were fertilized or not with K and subjected to six successive croppings (soybeans, pearl millet, wheat, common beans, soybeans, and maize). The crops were grown in 8-L pots for 45 days, and at the end of the sixth cropping, the soil from each pot was sampled to the determination of soil K pools. The lowland soils differ in the ability to K supply to the plants in the short to medium term due to the wide range of origin material and the concentration of K in solution, exchangeable K, non-exchangeable K, and structural K. When the soils were not fertilized with K, the successive cropping resulted in continuous depletion process of non-exchangeable and exchangeable K; however, this depletion was less pronounced in soils with a higher potential buffer capacity of K. Non-exchangeable and exchangeable K concentrations were increased with the addition of K fertilizer, indicating the occurrence of K fixation in soil. The non-exchangeable K contribution to K nutrition of plants ranged from 44 to 69% in the treatments without the addition of K fertilizer, reporting the importance of non-exchangeable K pools in the supply of this nutrient to plants in agricultural production systems.

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Section: Soil Potassium Poolssupporting

confidence: 90%

Section: Non-exchangeable K Contributionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Potassium supplying capacity of some lowland soils under potassium fertilization and successive croppings

et al. 2020

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“…Todavia, elevadas quantidades de K foram fornecidas pela adubação potássica, bem como pela aplicação de vinhaça via irrigação. Além disso, diversos autores já observaram que formas não-trocáveis de potássio também podem contribuir, expressivamente, para o suprimento desse elemento às plantas (KAMINSKI et al, 2010;ÖBORN et al, 2010;VIEIRA et al, 2016;VIEIRA et al, 2017), principalmente quando verifica-se a dominância de argilominerais 2:1, como mica e interestratificados micavermiculita com hidroxi-Al entrecamadas (VHE) ou mica-esmectita e esmectita com hidroxientrecamadas muito comuns em Vertissolos. Esses argilominerais podem constituir fontes importantes de K no solo (ERNANI et al, 2007;FRAGA et al, 2009), Na extração total de Ca, observaram-se valores de 245 e 139 kg ha -1 , aos 352 e 385 dias respectivamente, com média de 89 kg ha -1 .…”

Section: Oooolineunclassified

Acúmulo E Exportação De Macronutrientes Pela Cana De Açúcar Irrigada No Semiárido Brasileiro

Salviano¹,

Moura²,

Silva³

et al. 2017

Revista Científica Intelletto

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“…Como estas formas de K estão em equilíbrio, quando o K solúvel é absorvido pela planta ou perdido do solo por lixiviação, este equilíbrio é mantido mediante a liberação de K trocável para a solução do solo. Quando a concentração do K trocável atinge valores muito baixos, ocorre liberação de K não trocável para as formas trocável e solúvel, o que possibilita o desenvolvimento das plantas, mesmo em solos com baixos teores de K trocável e K solúvel (Kirkman et al, 1994;Kaminski et al, 2007;Medeiros et al, 2014;Vieira et al, 2016).…”

Section: Introductionunclassified

Capacidade De Suprimento De Potássio Em Doze Classes De Solos Em Função De Cultivos Sucessivos De Milho

Vieira

Oliveira

Santos

et al. 2016

RCA

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PALAVRAS-CHAVE Mineralogia Formas de potássio Potássio não trocável KEYWORDS Mineralogy Potassium forms Non-exchangeable potassium RESUMO: Os teores e formas de K no solo variam de acordo com as classes de solos e, consequentemente, com o grau de desenvolvimento, o que influencia diretamente a disponibilidade deste nutriente para as plantas. Objetivou-se, com este trabalho, avaliar a capacidade de suprimento de K para as plantas em 12 classes de solos ao longo de quatro cultivos sucessivos de milho em casa de vegetação. O delineamento experimental utilizado foi o de blocos casualizados com três repetições e os 24 tratamentos consistiram da combinação de duas doses de K (0 e 100 mg dm-3) e 12 solos. Antes e após cada cultivo de milho, foram retiradas de cada vaso subamostras de 0,2 dm 3 para análises dos teores de K não trocável (Knt), K trocável (Kt) e K solúvel (Ks). Os solos menos desenvolvidos mais argilosos, com predominância de minerais do tipo 2:1 na fração argila, apresentaram maior capacidade de suprimento de K para as plantas de milho ao longo dos quatro cultivos sucessivos, enquanto os solos mais desenvolvidos com predominância de caulinita e goethita na fração argila apresentaram menor capacidade de suprimento de K, especialmente aqueles mais arenosos.

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Contribution of non-exchangeable potassium forms and its accumulation in corn plants

Cited by 8 publications

References 13 publications

Potassium supplying capacity of some lowland soils under potassium fertilization and successive croppings

Potassium supplying capacity of some lowland soils under potassium fertilization and successive croppings

Acúmulo E Exportação De Macronutrientes Pela Cana De Açúcar Irrigada No Semiárido Brasileiro

Capacidade De Suprimento De Potássio Em Doze Classes De Solos Em Função De Cultivos Sucessivos De Milho

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