Plants (Feb 2023)

Potential of Bioassays to Assess Consequences of Cultivation of <i>Acacia mangium</i> Trees on Nitrogen Bioavailability to <i>Eucalyptus</i> Trees: Two Case-Studies in Contrasting Tropical Soils

  • Kittima Waithaisong,
  • Agnès Robin,
  • Louis Mareschal,
  • Jean-Pierre Bouillet,
  • Jean-Michel Harmand,
  • Bruno Bordron,
  • Jean-Paul Laclau,
  • José Leonardo Moraes Gonçalves,
  • Claude Plassard

DOI
https://doi.org/10.3390/plants12040802
Journal volume & issue
Vol. 12, no. 4
p. 802

Abstract

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We hypothesized that the nitrogen-fixing tree Acacia mangium could improve the growth and nitrogen nutrition of non-fixing tree species such as Eucalyptus. We measured the N-mineralization and respiration rates of soils sampled from plots covered with Acacia, Eucalyptus or native vegetation at two tropical sites (Itatinga in Brazil and Kissoko in the Congo) in the laboratory. We used a bioassay to assess N bioavailability to eucalypt seedlings grown with and without chemical fertilization for at least 6 months. At each site, Eucalyptus seedling growth and N bioavailability followed the same trends as the N-mineralization rates in soil samples. However, despite lower soil N-mineralization rates under Acacia in the Congo than in Brazil, Eucalyptus seedling growth and N bioavailability were much greater in the Congo, indicating that bioassays in pots are more accurate than N-mineralization rates when predicting the growth of eucalypt seedlings. Hence, in the Congo, planting Acacia mangium could be an attractive option to maintain the growth and N bioavailability of the non-fixing species Eucalyptus while decreasing chemical fertilization. Plant bioassays could help determine if the introduction of N2-fixing trees will improve the growth and mineral nutrition of non-fixing tree species in tropical planted forests.

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