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[Effects of forest structure on natural regeneration of Excentrodendron hsienmu population in Southwest Guangxi, China.]

Zhi Yang OuGuangxi Forestry Research Institute/Central South Key Laboratory of Fast growing Tree Cultivation of State Forestry Administration/Guangxi Key Laboratory of Superior Timber Trees Cultivation, Nanning 530002, ChinaShi Long PangGuangxi Forestry Research Institute/Central South Key Laboratory of Fast growing Tree Cultivation of State Forestry Administration/Guangxi Key Laboratory of Superior Timber Trees Cultivation, Nanning 530002, ChinaZhang Qiang TanGuangxi Forestry Research Institute/Central South Key Laboratory of Fast growing Tree Cultivation of State Forestry Administration/Guangxi Key Laboratory of Superior Timber Trees Cultivation, Nanning 530002, ChinaWei ZhengGuangxi Forestry Research Institute/Central South Key Laboratory of Fast growing Tree Cultivation of State Forestry Administration/Guangxi Key Laboratory of Superior Timber Trees Cultivation, Nanning 530002, ChinaQin Fei HeGuangxi Forestry Research Institute/Central South Key Laboratory of Fast growing Tree Cultivation of State Forestry Administration/Guangxi Key Laboratory of Superior Timber Trees Cultivation, Nanning 530002, ChinaWen ShenGuangxi Forestry Research Institute/Central South Key Laboratory of Fast growing Tree Cultivation of State Forestry Administration/Guangxi Key Laboratory of Superior Timber Trees Cultivation, Nanning 530002, China
PubMedrepository2017en
ABI

Abstract

and relatively low. Forest vertical structure and density variables did not significantly affect the number of E. hsienmu seedlings, but significantly affected seedling ground diameter and height to some extent. Among the vertical structure variables, a significant nega tive correlation was observed between crown index and seedling height, but the association between crown index and seedling ground diameter was not significant. The large tree proportion and tree height were significantly negatively correlated with both seedling ground diameter and height. However, the proportion of small trees was significantly positively related to both seedling ground diameter and height. Among the density variables, adult tree density showed a significant positive correlation with both seedling ground diameter and height. A significant negative association was observed between the proportion of E. hsienmu and seedling ground diameter. Multiple regression analysis indicated that the model based on stand structure factors showed a poor fitness with regard to the number of E. hsienmu seedlings (P>0.05), and the quantitative distribution of E. hsienmu seedlings was affected to some extent by vertical structural variables. The stand structure factor model fitted well for the diameter and height of the seedlings (P<0.01). Seedling ground diameter was mainly affected by adult tree density, and seedling height was mainly determined by the combined effects of adult tree density and basal area.

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