Ecological significance & role in forest ecosystems.

1. Habitat Structuring and Forest Composition

  • Canopy & Understory Contribution:
    Aquilaria trees, depending on species and age, can reach 10–40 m in height, contributing to forest stratification. Their presence adds complexity to both canopy and understory layers, supporting diverse flora and fauna.
  • Niche Formation:
    The trees create microhabitats for epiphytes, mosses, fungi, and understory shrubs. Dead wood and leaf litter contribute to soil fertility and structure.

2. Biodiversity Support

  • Faunal Interactions:
    • Flowers: Attract pollinators like bees, butterflies, and birds.
    • Fruits: Feed birds, bats, and small mammals, aiding seed dispersal.
  • Fungal Associations:
    • Aquilaria species host endophytic fungi (e.g., Fusarium spp.), which play a role in resin formation and nutrient cycling.
  • Symbiotic Role:
    • Facilitate mycorrhizal associations, enhancing soil nutrient uptake and supporting neighboring plants.

3. Soil and Water Regulation

  • Soil Stabilization:
    • Deep root systems help prevent soil erosion, particularly on sloped terrain.
  • Nutrient Cycling:
    • Leaf litter and decayed wood enrich soil with organic matter.
  • Hydrological Contribution:
    • Canopy interception reduces surface runoff; root systems enhance groundwater infiltration.

4. Carbon Sequestration and Climate Regulation

  • Carbon Storage:
    • Medium to large Aquilaria trees store significant biomass carbon, contributing to forest carbon sinks.
  • Climate Buffering:
    • Their canopy moderates microclimate, reducing temperature extremes and maintaining humidity.

5. Role in Ecological Succession

  • Pioneer vs. Climax Species:
    • Some Aquilaria spp. are late-successional species, stabilizing mature forest ecosystems.
  • Restoration Potential:
    • Can be used in reforestation and agroforestry systems due to resilience and economic value, aiding in secondary forest recovery.

6. Threats to Ecological Role

  • Overharvesting of Aquilaria reduces forest structural diversity, affecting dependent species.
  • Habitat fragmentation can interrupt pollination and seed dispersal networks.
  • Loss of trees diminishes soil and water regulation functions.

7. Key Takeaways

  • Aquilaria trees are keystone components in tropical forest ecosystems.
  • Support biodiversity through food, habitat, and symbiotic relationships.
  • Contribute to carbon sequestration, soil stabilization, and microclimate regulation.
  • Sustainable management is crucial to maintain forest resilience and ecosystem services.