Revista Brasileira de Ciência do Solo (Oct 2009)

Transporte de boro no solo e sua absorção por eucalipto Transport of boron in soil and its uptake by eucalypt

  • Edson Marcio Mattiello,
  • Hugo Alberto Ruiz,
  • Ivo Ribeiro da Silva,
  • Nairam Félix de Barros,
  • Julio César Lima Neves,
  • Maurel Behling

DOI
https://doi.org/10.1590/S0100-06832009000500021
Journal volume & issue
Vol. 33, no. 5
pp. 1281 – 1290

Abstract

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O mecanismo e a magnitude do transporte de B até as raízes das plantas dependem da umidade e do teor do nutriente no solo. As contribuições do fluxo de massa e da difusão para o transporte de B até as raízes de eucalipto foram avaliadas em resposta ao potencial de água do solo e às doses do nutriente. No ensaio, foram utilizados dois potenciais de água do solo (-10 e -40 kPa) e seis doses de B (0, 0,5, 1, 2, 3 e 5 mg dm-3 de B). As plantas foram cultivadas em vasos com capacidade de 2,5 dm³ em casa de vegetação. O controle do potencial da água do solo foi efetuado pelo uso de um tensiômetro por vaso, e o ajuste por acréscimo de água destilada. A máxima produção de matéria seca de raízes foi obtida nas doses correspondentes a 0,98 e 2,38 mg dm-3 de B nos potenciais de água de -10 e -40 kPa, respectivamente. A máxima produção de matéria seca de parte aérea foi obtida nas doses correspondentes a 0,96 e 1,82 mg dm-3 de B nos potenciais de água de -10 e -40 kPa, respectivamente. Foram observadas relações positivas e altamente significativas (p The mechanism and magnitude of B transport to plant roots depend on both water and B soil contents. The contribution of mass flow and diffusion to the B transport in soil to eucalypt roots was evaluated in response to the water potential and B rates. Two water potentials (-10 and -40 kPa) and six B levels (0; 0.5; 1; 2; 3 and 5 mg dm-3 of B) were evaluated. The plants were grown in 2.5 dm³ plastic pots with soil, in a greenhouse. The water potential was controlled by a tensiometer in each pot and soil moisture adjusted with distilled water. The maximum root dry weight was produced at rates of 0.98 and 2.38 mg dm-3 of B, at potentials of -10 and -40 kPa, respectively, and the maximum shoot dry weight at rates of 0.96 and 1.82 mg dm-3 of B, at potentials of -10 and -40 kPa, respectively. Positive and highly significant relationships were observed between B rates, soil extractable B, B in soil solution and B plant content at both water potentials. Mass flow was the predominant mechanism for B transport in soil, supplying 100 % of the plant demand in the soils treated with the highest B rates. Diffusion was a complementary mechanism, but its relative increased substantially under conditions of low soil B and greater water deficit.

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