Smith fir population structure and dynamics in the timberline ecotone of the Sejila Mountain, Tibet, China

Abstract

Smith fir ( Abies georgei var. smithii), which grows on cool aspects with elevations ranging between 3600 m and 4400 m, is a major native dominant alpine tree species in Southeast Tibet, China. The smith fir population structure, dynamics and characteristics were investigated in the timberline ecotone of the Sejila Mountain. Results indicate that the minimum crown closure (≤20%) was reached at 4320 m above sea level, where two types of alpine species exist, smith fir and blackseed savin ( Sabina saltuaria). On the warm aspects, blackseed savin is a dominant species. Forest line was formed gradually with a wider timberline ecotone. While on the cool aspects, smith fir is a dominant species. Forest line was formed clearly with a narrow timberline ecotone. Furthermore, the upper limits of the distribution of the alpine species were 4570 m and 4390 m on warm and cool aspects, respectively. The timberline ecotone widths of the two species on the warm and cool aspects were 250 m and 70 m, respectively. The optimal distribution of smith fir on the cool aspects was from 3700 m to 3800 m. The smith fir's diameter class distribution was of reversed “J” shape and its density was about 380 stem·hm −2, while the age structure appeared to be of pyramid-shape, suggesting an expanding population. Finally, the static life table and the survivorship curve showed that the populations had experienced severe environmental selection during their first 20 years, self-thinning between 60 to 100 years, and environmental changes related mortality at later stages. The smith fir's physiological life span was around 200 years, and its maximum age was about 400 years old.