Characteristics and effects of sprouting on species diversity in a subtropical evergreen broad-leaved forest in Gutianshan, East China

Sprouting, a life history strategy found in woody plant communities, enables woody plants to persist in situ through disturbance events. The ‘persistence niche’ of sprouting has important influences on species coexistence, community assembly, and ecosystem stability. However, the mechanism of the ‘persistence niche’ in maintaining species diversity is not well understood. Based on data collected in a 5 ha plot in a mid-subtropical evergreen broad-leaved forest in the Gutianshan National Natural Reserve of Zhejiang Province, China, we analyzed the characteristics of sprouting and their relationships with species diversity. Our results revealed that the sprouting species had a great proportion of 63.95% in richness and a high proportion of 38.53% in abundance, especially a higher abundance proportion of 59.51% of potential sprouting at the community level. Sprouting occurred in most taxa, and there was high ability of sprouting in Fagaceae, Ericaceae, Hamamelidaceae, and Theaceae. There were significant negative correlations between abundance proportion of sprouting species and the biodiversity index of the community, despite no relationships between richness proportion of sprouting species and biodiversity index. Therefore, the sprouters could retain their position in forests and reduce biodiversity of the forest community. This trade-off of sprouting may result in the maintenance of community stability.