Transformações do nitrogênio proveniente de mucuna-preta e uréia utilizados como adubo na cultura do milho

Scivittaro, W. B.; Muraoka, Takashi; Boaretto, Antonio Enedi

doi:10.1590/s0100-204x2003001200009

Cited by 20 publications

(30 citation statements)

References 13 publications

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“…Deste modo, possivelmente, a maior porção do N remanescente, principalmente das culturas de cobertura, deve ter permanecido no solo dentro da zona explorada pelas raízes do milho, a exemplo do verificado por Azam et al (1985), para N de culturas de cobertura, e de Coelho et al (1991), para o N da uréia. A maior recuperação no solo do N oriundo de fontes orgânicas é bastante citada na literatura, encontrando-se entre 44 e 89 % do N para adubos verdes, e entre 12 e 53 % para fertilizantes minerais (Azam et al, 1985;Harris & Hesterman, 1990;Harris et al, 1994;Scivittaro et al, 2003), o que se deve, em parte, à maior absorção do N de fontes minerais pela planta em curto prazo (Ladd & Amato, 1986).…”

Section: Resultsunclassified

“…O principal efeito, porém, é o de evitar o desencadeamento do processo erosivo do solo (Amado et al, 2002;Sousa & Lobato 2004). O maior aporte de N pela crotalária favoreceu, provavelmente, o maior desenvolvimento do sistema radicular do milho, promovendo o maior aproveitamento do N e de outros nutrientes do solo (Jenkinson et al, 1985;Muraoka et al, 2002), bem como a mineralização do N do solo (Rao et al, 1992;Scivittaro et al, 2003), efeito conhecido como "priming". Esse efeito é relatado, com mais freqüência, na literatura em resposta à aplicação de fertilizantes minerais (Rao et al, 1992).…”

Section: Resultsunclassified

“…O N aplicado ao solo sob a forma de adubos verdes ou de fertilizantes minerais segue diferentes caminhos: uma parte é absorvida pelas plantas; outra, perdida do sistema solo-planta por processos de lixiviação, volatilização, erosão e desnitrificação (Lara Cabezas et al, 2000), e o restante permanece no solo, predominantemente na forma orgânica (Coelho et al, 1991;Scivittaro et al, 2003). O conhecimento dos processos envolvidos na incorporação e transformação do N no sistema solo-planta-atmosfera é imprescindível ao desenvolvimento de estratégias de manejo que aumentem o seu aproveitamento pelas culturas.…”

Section: Introductionunclassified

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Utilização do nitrogênio (15N) residual de coberturas de solo e da uréia pela cultura do milho

Silva

Muraoka

Buzetti

et al. 2006

Rev. Bras. Ciênc. Solo

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Section: Resultsunclassified

Section: Introductionunclassified

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Utilização do nitrogênio (15N) residual de coberturas de solo e da uréia pela cultura do milho

Silva

Muraoka

Buzetti

et al. 2006

Rev. Bras. Ciênc. Solo

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“…One of these practices would be the use of cover crops. According to Scivittaro;et al (2003), the combination of green manure and mineral fertilizers as a source of N for crop is a promising management practice, which rationalizes the use of mineral sources, without dispensing high yields. Malavolta (1980) reported that the presence of N in the form of NH 4 + is favored by substances secreted by the roots of grasses, which inhibit nitrification, and the existence of lower pH values, which generally occur under such conditions.…”

Section: Action Of Biological Processesmentioning

confidence: 99%

Nitrification inhibition in tropical soil under no tillage system

Moro¹,

Crusciol²,

Nascente³

et al. 2014

RCA

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ABSTRACT:In no-tillage systems (NTS), biological activity and nitrification process in the soil are higher due to higher organic matter and moisture contents, resulting in higher levels of nitrate compared with areas under conventional tillage systems. However, nitrogen in the form of nitrate is more easily leached, helping to reduce nitrogen use efficiency (NUE) by plants, besides contaminating water resources. Therefore, the use of alternatives that promote the persistence of ammonium in the soil contribute to increased nitrogen use efficiency in agricultural systems, as well as to their sustainability. The purpose of this review was to discuss the process of nitrification inhibition. We observed that it is possible to increase the content of ammonium in the soil, contributing to the reduction of N loss through leaching and increasing the efficiency of nitrogen use by crops, thus providing sustainability to agricultural systems. To this end, the use of cover crops, such as Brachiaria species, and synthetic nitrification inhibitors incorporated to nitrogen fertilizers are among the alternatives. Nevertheless, studies should be developed in order to clarify the conditions under which these cover crops can be introduced in agricultural systems for this purpose and also which factors interfere on the efficiency of synthetic nitrification inhibitors.

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“…Residue incorporation studies of legumes using 15 N label indicate that 10 to 34% of the legume N can be recovered in the subsequent rye or wheat crop (Ladd et al, 1981b(Ladd et al, , 1983Azam et al, 1986;Muller & Sundman, 1988;Ta & Faris, 1990), 42% in rice (Silva, 1991), 24% recovery from Velvet bean by corn crop (Scivittaro et al, 2003), around 15% of N recovery from sunn hemp in corn plants in no-till system (Silva, 2005) and 5% of N recovery from sunn hemp by sugarcane (Ambrosano et al, 2005). Ladd et al (1981b) incorporated Medicago littoralis into two soil types and observed that the mineralization rate of N of the legume residue was more intense in the less fertile soil.…”

Section: Introductionmentioning

confidence: 99%

Nitrogen supply to corn from sunn hemp and velvet bean green manures

Ambrosano¹,

Cantarella²,

Ambrosano

et al. 2009

Sci. agric. (Piracicaba, Braz.)

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Due to their nitrogen fixation potential, legumes represent an alternative for supplying nutrients, substituting or complementing mineral fertilization in cropping systems involving green manuring. The objective of this study was to evaluate the N balance in a soil-plant system involving green manures [sunn hemp (Crotalaria juncea L.) and velvet bean (Mucuna aterrima Piper & Tracy)], both labeled with 15 N. They were incorporated into two soils of contrasting textural classes: a clayey Eutrudox and a sandy-clayey Paleudalf, both cultivated with corn. The research was carried out in a greenhouse, using pots containing 6 kg of air dried soil, to which the equivalent to 13 Mg ha -1 dry matter of above-ground mass plus 2.7 or 2.2 Mg ha -1 of velvet bean and sunn hemp roots were incorporated, respectively, with 15 N labeling of either shoots or roots. One hundred days after emergence of the corn, the velvet bean residues provided higher accumulation of N in the soil, higher absorption by corn plants and accumulation in the shoot. The green manure decomposition was more intense in the medium-textured Paleudalf. The highest nitrogen losses were also observed in this soil.

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Transformações do nitrogênio proveniente de mucuna-preta e uréia utilizados como adubo na cultura do milho

Cited by 20 publications

References 13 publications

Utilização do nitrogênio (15N) residual de coberturas de solo e da uréia pela cultura do milho

Utilização do nitrogênio (15N) residual de coberturas de solo e da uréia pela cultura do milho

Nitrification inhibition in tropical soil under no tillage system

Nitrogen supply to corn from sunn hemp and velvet bean green manures

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