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- Title
Dynamics of tree stems and biomass in old‐growth and secondary forests along gradients in liana dominance, elevation and soil.
- Authors
Ngute, Alain Senghor K.; Pfeifer, Marion; Schoeman, David S.; Gereau, Roy E.; Mnendendo, Hamidu R.; Lyatuu, Herman M.; Seki, Hamidu A.; Shirima, Deo D.; Marshall, Andrew R.
- Abstract
Lianas, or woody vines, are key components of many tropical forests and can have substantial impacts on the dynamics and functioning of these important ecosystems. Their competition with trees for resources, in particular light, can hamper the recovery of forests from disturbances. Yet, it is unclear how forest disturbance interacts with liana–tree ratio (LTR), topography and soil properties to shape tree dynamics and the trajectories of forest succession.Using temporal data from the Kilombero Valley and the Udzungwa Mountains of Tanzania, we demonstrate how the dynamics of tree stems and biomass vary between secondary and old‐growth forests with changes in the dominance of lianas and environmental gradients.Greater tree recruitment and mortality in secondary forests compared with old‐growth forests suggested rapid regeneration processes and faster turnover. However, no significant differences were found in the net annual changes in the number or biomass of trees between secondary and old‐growth forests.Our findings also showed that higher LTRs were positively associated with stem mortality but also with tree biomass growth, indicating a nuanced ecological role of lianas in forest ecosystems, which warrants further investigation to fully understand the causal factors at play.Net changes in tree stem numbers decreased significantly with elevation, implying climatic constraints on forest regeneration at higher elevations. Soil cation exchange capacity and organic carbon were found to significantly influence tree stem recruitment and net change in abundance, although their effects on biomass remained unclear.Synthesis: Our findings indicate that the recovery of tropical forests from disturbance in terms of the number and biomass of tree stems may be predictable along environmental gradients. These insights have the potential to broaden our capacity to develop more nuanced strategies that identify when and where tropical forests may require restoration interventions, with a focus on structural recovery.
- Subjects
TANZANIA; SECONDARY forests; BIOMASS; TROPICAL forests; LIANAS; TREE growth; BIOMASS conversion
- Publication
Journal of Ecology, 2024, Vol 112, Issue 7, p1638
- ISSN
0022-0477
- Publication type
Article
- DOI
10.1111/1365-2745.14347