Frontiers in Environmental Science (Jul 2020)

Sewage Sludge Application in Eucalyptus urograndis Plantation: Availability of Phosphorus in Soil and Wood Production

  • Cassio Hamilton Abreu-Junior,
  • Marcelo Gomes de Oliveira,
  • Paulo Henrique Silveira Cardoso,
  • Thays da Silva Mandu,
  • Antonio Leite Florentino,
  • Fernando Carvalho Oliveira,
  • Josimar Vieira dos Reis,
  • Clayton Alcarde Alvares,
  • José Luiz Stape,
  • Thiago Assis Rodrigues Nogueira,
  • Gian Franco Capra,
  • Gian Franco Capra,
  • Zhenli He

DOI
https://doi.org/10.3389/fenvs.2020.00116
Journal volume & issue
Vol. 8

Abstract

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Phosphate fertilizers used in planted forests mainly come from scarce and non-renewable sources, and there is a need for new sources of phosphorus (P). An alternative is the use of sewage sludge (SS), rich in organic matter, nitrogen, and P. The objectives were to evaluate the soil P availability and its effect on wood production in 22-month-old Eucalyptus urograndis plantation treated with SS. A field experiment was set up in a randomized complete block design, four replicates, with the following treatments: control without fertilization; mineral fertilization (MF); 14.5 Mg ha–1 of SS + 22 kg ha–1 of P (S1P1); 29 Mg ha–1 of SS (S2); 29 Mg ha–1 of SS + 17.5 kg ha–1 of P (S2P2); and 43.5 Mg ha–1 of SS (S3), dry base. Of the total P in SS, 65% was in organic form and 42% was in labile + moderately labile forms. S2P2 and S3 positively altered the pattern of soil P distribution, with more P in the labile and moderately labile fractions than in the non-labile fraction, along 0–20 cm depths, than MF and control. There were higher microbial and available P as a function of SS dose. Wood volume and biomass were highly related to soil P availability as a function of SS dose. Within the SS treatments, S2P2 resulted in higher gains of volume and biomass of wood. The SS application at the recommend rate, supplemented with 66% of recommended P fertilizer dose in Eucalyptus plantations, can reduce the use of P fertilizer by 33% and N fertilizer by 100% and maintain comparable soil P availability and wood production.

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