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

Kittima WaithaisongAgnès RobinLouis MareschalJean-Pierre BouilletJean-Michel HarmandBruno BordronJean-Paul LaclauJosé Leonardo Moraes GonçalvesClaude Plassard
Published in: Plants (Basel, Switzerland) (2023)
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 N 2 -fixing trees will improve the growth and mineral nutrition of non-fixing tree species in tropical planted forests.
Keyphrases
  • climate change
  • heavy metals
  • physical activity
  • human health
  • arabidopsis thaliana
  • plant growth
  • genetic diversity