Fernando César Bachiega Zambrosi scite author profile

In Citrus, water, nutrient transport and thereby fruit production, are influenced among other factors, by the interaction between rootstock and boron (B) nutrition. This study aimed to investigate how B affects the anatomical structure of roots and leaves as well as leaf gas exchange in sweet orange trees grafted on two contrasting rootstocks in response to B supply. Plants grafted on Swingle citrumelo or Sunki mandarin were grown in a nutrient solution of varying B concentration (deficient, adequate, and excessive). Those grafted on Swingle were more tolerant to both B deficiency and toxicity than those on Sunki, as revealed by higher shoot and root growth. In addition, plants grafted on Sunki exhibited more severe anatomical and physiological damages under B deficiency, showing thickening of xylem cell walls and impairments in whole-plant leaf-specific hydraulic conductance and leaf CO2 assimilation. Our data revealed that trees grafted on Swingle sustain better growth under low B availablitlity in the root medium and still respond positively to increased B levels by combining higher B absorption and root growth as well as better organization of xylem vessels. Taken together, those traits improved water and B transport to the plant canopy. Under B toxicity, Swingle rootstock would also favor plant growth by reducing anatomical and ultrastructural damage to leaf tissue and improving water transport compared with plants grafted on Sunki. From a practical point of view, our results highlight that B management in citrus orchards shall take into account rootstock varieties, of which the Swingle rootstock was characterized by its performance on regulating anatomical and ultrastructural damages, improving water transport and limiting negative impacts of B stress conditions on plant growth.

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Liming and Ionic speciation of an Oxisol under no-till system

Zambrosi

Alleoni²,

Caires³

2008

Sci. agric. (Piracicaba, Braz.)

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The chemical speciation of the soil solution is an important tool for evaluating nutrient availability and aluminum phytotoxicity. The effect of liming in the composition of the soil solution under the no-till (NT) system is still not well known. We evaluated the chemical speciation of Al and nutrients in the soil solution (water extract 1:1), five years after liming at the moment of the establishment of NT in a native pasture, in Ponta Grossa, Paraná State, Brazil. Dolomitic lime was applied at a rate of 4.5 t ha -1 (either incorporated or surface-applied), or split in three annual rates of 1.5 t ha CALAGEM E ESPECIAÇÃO IÔNICA DE UM LATOSSOLO SOB SISTEMA PLANTIO DIRETORESUMO: A especiação química da solução do solo é uma importante ferramenta para avaliar a disponibilidade de nutrientes e o potencial fitotóxico do alumínio. As formas em que os elementos ocorrem na solução dos solos sob sistema plantio direto (SPD) ainda são pouco conhecidas, sobretudo em áreas que receberam aplicação de calcário. Avaliou-se a distribuição das espécies químicas de alumínio e nutrientes na solução do solo (extrato aquoso 1:1), cinco anos após a aplicação de calcário, na introdução do SPD em área de pastagem nativa, em Ponta Grossa -PR. Aplicaram-se 4,5 t ha -1 de calcário dolomítico na superfície, em dose única ou parcelada durante três anos, ou com incorporação na camada de 0 -0,20 m, de um Latossolo Vermelho distrófico textura argilosa. As amostras de solo foram coletadas nas profundidades de 0 -0,05; 0,05 -0,1; 0,1 -0,2; 0,2 -0,4; 0,4 -0,6 e 0,6 -0,8 m. O alumínio (Al) ocorreu predominantemente complexado pelo carbono orgânico dissolvido (DOC) e pelo fluoreto, e em baixíssimas proporções na forma livre Al 3+ , mesmo em condições de alta acidez. Para cálcio (Ca) e magnésio (Mg), as espécies químicas que ocorreram em maiores proporções foram as formas livres (Ca 2+ e Mg 2+ ) e complexadas pelo DOC. O fósforo, além das formas livres (H 2 PO 4 -, HPO 4 2-), interagiu com alumínio (par iônico Al-H x PO 4 x ), sobretudo até 0,1 m de profundidade. A complexação do alumínio pelo carbono orgânico dissolvido não foi influenciada pela correção da acidez do solo por meio da calagem na superfície ou com incorporação. A aplicação de calcário não alterou a especiação de cálcio e magnésio na solução do solo sob sistema plantio direto. Contudo, a ocorrência das formas livres H 2 PO 4 -e HPO 4 2-foi influenciada pela calagem, havendo incremento das formas associadas com cátions. Palavras-chave: calcário dolomítico, complexos, par iônico, carbono orgânico dissolvido

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Nutrient concentration in soil water extracts and soybean nutrition in response to lime and gypsum applications to an acid Oxisol under no-till system

Zambrosi

Alleoni

Caires

2007

Nutr Cycl Agroecosyst

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No-till system (NTS) occupies 20 million hectares with grain crops in Brazil. However, calcium deficiency and aluminum toxicity can limit crop yields in many soils, and liming, associated to gypsum application, is an option for improving soil management. The objective of this study was to evaluate the effects of lime and gypsum application on the composition of soil water extracts of a clayey Rhodic Hapludox, cultivated with soybean under NTS. The experiment had a randomized complete block design with split-plots. The plots consisted of lime treatments (either a single rate of 4.5 t ha À1 or three annual rates of 1.5 t ha À1 ) surface-applied or incorporated at 0.2 m depth. The subplots received surface applications of gypsum (3, 6 and 9 t ha À1 ). Liming increased total calcium and magnesium concentrations and the magnesium free Form activity (aMg 2+ ) in the water extracts. The effect of liming on Mg was observed at deeper layers of the soil profile. Gypsum increased total concentration and free forms activities at calcium (aCa 2+ ) and sulfate, but decreased to magnesium in the 0.05-0.2 m soil layer. Part of Mg lost from these upper layers probably contributed to increased Mg in the subsoil (0.4-0.8 m). Free forms activities at the aluminum, calcium, magnesium and sulfate were lower than the total concentrations, mainly for aluminum. Ca and Mg concentrations in soybean leaf tissue were positively correlated to the aCa 2+ and aMg 2+ in the soil water extract. Soybean grain yield was negatively correlated to both Mn total concentration and activity (free form) in the soil water extract, but it was positively correlated to sulfate (total concentration and free form activity) in the subsoil layer and to the Ca total concentration in the upper layer (0-0.05 m). It is concluded that lime and gypsum ameliorate soybean grain yield under NTS.

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Sugarcane performance under phosphorus deficiency: physiological responses and genotypic variation

et al. 2014

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Preliminary Dris Norms for 'Smooth Cayenne' Pineapple and Derivation of Critical Levels of Leaf Nutrient Concentrations

Teixeira¹,

Quaggio²,

Zambrosi³

2009

Acta Hortic.

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Contribution of phosphorus (32P) absorption and remobilization for citrus growth

Zambrosi

Mattos²,

Boaretto³

et al. 2012

Plant Soil

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Teores de alumínio trocável e não trocável após calagem e gessagem em Latossolo sob plantio direto

2007

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O sistema plantio direto (SPD) contribui para o incremento dos teores de matéria orgânica (MO) no solo, o que pode alterar as relações entre os teores de alumínio (Al) trocável e não trocável, devido à complexação desse cátion. Este estudo foi realizado com o objetivo de avaliar o efeito da calagem e da gessagem nos teores de Al trocável (Al-KCl), Al trocável + não trocável (Al-CuCl2) e Al não trocável em amostras de Latossolo Vermelho cultivado há 55 meses no SPD, no município de Ponta Grossa (PR). Na implantação do sistema sobre uma pastagem nativa, entre os meses de julho e outubro de 1998, foram aplicadas 4,5 t ha-1 de calcário em superfície, em única aplicação, ou parceladas em três aplicações anuais de 1,5 t ha-1, ou ainda em uma aplicação, sendo o corretivo incorporado a 20 cm de profundidade. Nas subparcelas, foram aplicadas três doses de gesso: 3, 6 e 9 t ha-1. A calagem reduziu os teores de Al-KCl, Al-CuCl2 e de Al não trocável, que se relacionaram negativamente com o pH do solo. Mesmo em condições de elevada acidez, os teores de Al trocável foram baixos, predominando no solo o Al não trocável, que representou 98%, 95%, 91% e 89% do Al extraído nas profundidades de 0-5, 5-10, 10-20 e 20-40 cm respectivamente. Não foi detectado efeito do gesso nos teores de nenhuma das formas de Al.

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