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Neighbourhood effects on tree seedlings differ by mycorrhizal symbiont type in a mixed dipterocarp forest
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  • Akshay Surendra,
  • H. A. Shashikala Madhubhani,
  • H. K. Mahesha Lakmali,
  • K. M. Upul Shantha,
  • H. M. S. Chaturanga Jayathilaka,
  • B. W. Gunasoma,
  • Balangoda Singhakumara,
  • Mark Ashton,
  • Sisira Ediriweera,
  • Liza Comita
Akshay Surendra
Yale University School of the Environment

Corresponding Author:[email protected]

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H. A. Shashikala Madhubhani
Uva Wellassa University
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H. K. Mahesha Lakmali
Uva Wellassa University
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K. M. Upul Shantha
Uva Wellassa University
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H. M. S. Chaturanga Jayathilaka
Uva Wellassa University
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B. W. Gunasoma
Sri Lanka Program for Forest Conservation
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Balangoda Singhakumara
University of Sri Jayewardenepura
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Mark Ashton
Yale University School of the Environment
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Sisira Ediriweera
Uva Wellassa University
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Liza Comita
Yale University
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Abstract

Mycorrhizal symbiont type is an important trait that differentiates tree species’ responses to their neighbours. In temperate forests, tree species associated with arbuscular mycorrhizae (AM) fungi tend to show reduced performance in conspecific relative to heterospecific neighbourhoods, while species associated with ectomycorrhizal (EcM) fungi do not suffer such negative effects from conspecific neighbours. However, our understanding of such mycorrhizae-mediated neighbourhood effects in tropical forests is limited. We address this knowledge gap through a shade house plant-soil feedback experiment and an observational field study of seedling dynamics within mixed dipterocarp (EcM host trees of family Dipterocarpaceae) forests of Sri Lanka. In the shade house, we transplanted 478 seedlings of three EcM host and two AM host species into conspecific- and heterospecific-trained soils and monitored their growth and survival over ~1.5 years. In the field, we tagged, identified, and measured seedlings in 576 seedling plots established within known adult neighbourhoods, and monitored growth and survival over two years beneath conspecific and heterospecific tree crowns. We found that the response of seedling growth and survival to neighbourhood (conspecific or heterospecific) depended on mycorrhizal symbiont type (AM or EcM) in the field, but not in the shade house, suggesting that above-ground enemies or input from leaf litter drive neighbourhood effects. AM host seedlings had lower growth and survival in conspecific vs. heterospecific neighbourhoods in the field, but the opposite pattern was observed for growth in the shade house. In contrast, growth and survival of EcM host seedlings did not vary with neighbourhood type in the field or shade house. These results support mycorrhizae-mediated neighbourhood effects in tropical mixed dipterocarp forests. The ability of EcM-host dipterocarp species to tolerate conspecific neighbours likely contributes to their dominance, whereas negative effects of conspecific neighbours may allow AM host seedlings to persist in enemy-free space beneath heterospecific adults.