Background and Aims <p>Adult trees influence local biotic and abiotic properties that in turn influence tree seedlings. Such feedbacks are important stabilizing processes that maintain local-scale diversity. However, their role in determining coexistence outcomes, measured as pairwise feedback,&#xa0;is poorly understood for long-lived trees in the tropics. We address this knowledge gap through pairwise experiments in the shadehouse and in the field within mixed-mycorrhizal tropical forests&#xa0;of Sri Lanka. We predicted that pairwise feedbacks would be negative, and therefore stabilizing, because the selected tree species coexist in nature.</p> Methods <p>In the shadehouse, we planted 402 seedlings of five species into soils conditioned by adult trees of each species. In the field, we planted 320 seedlings of four species beneath adult trees of each species. After ~ 1.3&#xa0;years, we calculated survival-adjusted, final above-ground biomass to compute pairwise feedback values for all species pairs.</p> Results <p>Based on vote counting, mean pairwise feedbacks were positive for 8 of 10 pairs in the shadehouse and negative in 4 of 6 pairs in the field experiment. Pairwise feedbacks were more negative in the field than in the shadehouse, suggesting feedbacks are due to above-ground enemies rather than soil-borne pathogens. These negative pairwise feedbacks in the field appear to be due to contributions to stabilization among heteromycorrhizal but not conmycorrhizal pairs.</p> Conclusion <p>Some stabilization among heteromycorrhizal pairs in the field may contribute to coexistence in Asia’s mixed mycorrhizal forests. Our study also demonstrates the importance of using in situ experimental approaches to assess the role of negative feedback in plant species coexistence.</p>

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Feedbacks in a mixed mycorrhizal rainforest in Sri Lanka are more stabilizing in the field than in the shadehouse

  • Akshay Surendra,
  • H. K. Mahesha Lakmali,
  • H. A. Shashikala Madhubhani,
  • H. M. S. Chaturanga Jayathilaka,
  • K. M. Upul Shantha,
  • Mark S. Ashton,
  • Sisira Ediriweera,
  • Liza S. Comita

摘要

Background and Aims

Adult trees influence local biotic and abiotic properties that in turn influence tree seedlings. Such feedbacks are important stabilizing processes that maintain local-scale diversity. However, their role in determining coexistence outcomes, measured as pairwise feedback, is poorly understood for long-lived trees in the tropics. We address this knowledge gap through pairwise experiments in the shadehouse and in the field within mixed-mycorrhizal tropical forests of Sri Lanka. We predicted that pairwise feedbacks would be negative, and therefore stabilizing, because the selected tree species coexist in nature.

Methods

In the shadehouse, we planted 402 seedlings of five species into soils conditioned by adult trees of each species. In the field, we planted 320 seedlings of four species beneath adult trees of each species. After ~ 1.3 years, we calculated survival-adjusted, final above-ground biomass to compute pairwise feedback values for all species pairs.

Results

Based on vote counting, mean pairwise feedbacks were positive for 8 of 10 pairs in the shadehouse and negative in 4 of 6 pairs in the field experiment. Pairwise feedbacks were more negative in the field than in the shadehouse, suggesting feedbacks are due to above-ground enemies rather than soil-borne pathogens. These negative pairwise feedbacks in the field appear to be due to contributions to stabilization among heteromycorrhizal but not conmycorrhizal pairs.

Conclusion

Some stabilization among heteromycorrhizal pairs in the field may contribute to coexistence in Asia’s mixed mycorrhizal forests. Our study also demonstrates the importance of using in situ experimental approaches to assess the role of negative feedback in plant species coexistence.