Abstract
Tree mortality and recruitment are key factors influencing forest dynamics, but the driving mechanisms of these processes remain unclear. To better understand these driving mechanisms, we studied forest dynamics over a 5-year period in a 20-ha sub-tropical forest in the Dinghushan Nature Reserve, South China. The goal was to identify determinants of tree mortality/recruitment at the local scale using neighborhood analyses on some locally dominant tree species. Results show that the study plot was more dynamic than some temperate and tropical forests in a comparison to large, long-term forest dynamics plots. Over the 5-year period, mortality rates ranged from 1.67 to 12.33% per year while recruitment rates ranged from 0 to 20.26% per year. Tree size had the most consistent effect on mortality across species. Recruitment into the ≥1-cm size class consistently occurred where local con-specific density was high. This suggests that recruitment may be limited by seed dispersal. Hetero-specific individuals also influenced recruitment significantly for some species. Canopy species had low recruitment into the ≥1-cm size class over the 5-year period. In conclusion, tree mortality and recruitment for sixteen species in this plot was likely limited by seed dispersal and density-dependence.
Highlights
Tree mortality and recruitment are key factors influencing forest dynamics, but the driving mechanisms of these processes remain unclear
Dinghushan plot appears more dynamic than other forest plots based on comparisons of their demographic rates, but more studies are required to understand the mechanisms behind differences in vital rates
This study suggests that tree size and biotic factors contribute to the regulation of the DHS sub-tropical forest community, but that the relative importance of these factors differs among species
Summary
Tree mortality and recruitment are key factors influencing forest dynamics, but the driving mechanisms of these processes remain unclear. Growth and recruitment of tree species are key factors influencing the structure, composition and succession of forest communities[7]. Tree mortality is recognized as one of the most important processes in forest dynamics and is influenced by many factors[7] It can facilitate turnover in species composition, affect community structure, and alter rates of nutrient cycling or biomass accumulation[8]. It can determine forest dynamics or succession and contribute to tree species coexistence[9].
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