Search Results (2)

Tetracentron sinense is a tall deciduous tree and represents the only remaining species of Tetracentron. Currently, the spatial distribution pattern of T. sinense and its associated influencing factors remain unclear, thus hindering its protection and rational utilization. In this study, we employed the point pattern method to analyze the spatial distribution patterns of four representative populations of T. sinense distributed in Baima Snow Mountain, Dafengding, Leigong Mountain, and Foping in China. The results reveal that the T. sinense populations in Baima Snow Mountain, Dafengding, and Leigong Mountain exhibited an aggregated distribution on small (0–10 m) or specific scales, with their spatial distribution patterns shifting from aggregated to random as the scale increased. In contrast, the population of T. sinense in Foping showed a random distribution at all scales. In relation to the factors influencing the spatial distribution patterns of T. sinense, we found that young trees played a crucial role and had a substantial impact on their distribution. Furthermore, adult trees contributed to the aggregated distribution of T. sinense saplings on smaller scales (0–10 m). Additionally, we identified Acer erianthum, Prunus conradinae, and Rhododendron anthosphaerum as key associated species that influenced the formation of spatial distribution patterns of T. sinense. Finally, air humidity and soil moisture content were found to exert a significant effect on the spatial distribution patterns of T. sinense populations. For the protection of T. sinense in situ, it is necessary to increase the number of young trees, enhance the availability of microhabitat factors for its seedlings, and utilize key companion species to promote heterogeneity, which can optimize resource utilization and foster population rejuvenation. Full article

Tertiary relict plants are of great scientific value in the study of flora evolution, angiosperm systems, and ancient origins. Paying attention to their spatial patterns can better reflect the change dynamics of the species to implement targeted protection countermeasures. In this study, we investigated the spatial patterns of Tetracentron sinense Oliver, a tertiary relict plant, and further studied the intra- and interspecific and environmental factors impacting the patterns. The results reveal that most of the individuals of T. sinense were distributed in the 1700–1800 m altitudinal belt, and they were highly aggregated at a small scale. The young trees showed a positive interaction with adult trees. The dominant species showed a positive interaction with T. sinense; the interaction gradually became non-significant or negative as the scale increased. The key abiotic factors affecting the distribution of T. sinense were altitude, litter depth, zinc, and calcium. These results highlight the intra- and interspecific interactions and environmental factors influencing the spatial pattern of T. sinense. Our results provide new insights into tertiary relict species’ spatial patterns and nearline factors. Moreover, these findings have relevant implications for conserving and managing tertiary relict plants in a constantly fragmented habitat. Full article