Effects of Topographic Heterogeneity on Community Structure and Diversity of Woody Plants in Jianfengling Tropical Montane Rainforest

Effects of Topographic Heterogeneity on Community Structure and Diversity of Woody Plants in Jianfengling Tropical Montane Rainforest

【Objective 】To further explore the species coexistence mechanisms in tropical mountain rainforest,we compared differences in species composition and population characteristics in different topographic conditions, and assessed topographic associations with species diversity. 【Method】The 60 hm2 tropic...

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Veröffentlicht in:Linye kexue (1979) 2018-01 (1), p.1
Hauptverfasser: Wang, Jiaming, Xu, Han, Li, Yide, Lin, Mingxian, Zhou, Zhang, Luo, Tushou, Chen, Dexiang
Format: Artikel
Sprache:chi
Schlagworte:
Abundance
Biodiversity
Clustering
Coexistence
Communities
Community composition
Community structure
Composition
Density
Dominant species
Economic impact
Environmental factors
Heterogeneity
Livistona
Mixed forests
Plant diversity
Population characteristics
Rainforests
Soil conditions
Soil moisture
Species composition
Species diversity
Species-area relationship
Topography
Toruses
Trees
Tropical forests
Valleys
Woody plants
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Zusammenfassung:【Objective 】To further explore the species coexistence mechanisms in tropical mountain rainforest,we compared differences in species composition and population characteristics in different topographic conditions, and assessed topographic associations with species diversity. 【Method】The 60 hm2 tropical montane rainforest in Jianfenglingof Hainan Province containing trees(DBH ≥1 cm) of 290 woody species as a large plot was classified into different topographic types according to their elevations,convexities and slopes of each of the 20 m !20 m sample plots by fuzzy C-mean clustering. community composition,species abundance,and individual density among different topographic conditions were compared. Using Torus-translation tests,we examined the association between micro-topography and species for 230 woody species each with more than 60 plants with a DBH≥1 cm in the plot. 【Results】All sample plots of Jianfengling plot could be unambiguously assigned to one of the four topography categories,lower valley(12. 6 hm2,274 species),steep slope(16. 68 hm2,269 species),upper valley(15. 08 hm2,264 species) and ridge(15. 64 hm2,267 species). By comparing species-area relationships among these four topographies,the number of species in the lower valley was the largest. But there was little difference among other three topographies,because the numbers of species of them fell within the expected values of the steep slope ± 1. 96 !SE. By comparing the cumulative species-individual relationships among these four topographies,the cumulative rate of the lower valley was the largest and it was the least of the ridge. But there was little difference between the steep slope and the lower valley,because the numbers of species of them fell within the significance interval of the expected values of steep slope ± 1. 96 !SE. The upper valley had the largest average DBH,followed by the steep slope,whereas the lower valley had the least average DBH. And the average DBH of the ridge was equal to that of the whole plot. The ridge had the highest density,followed by the upper valley. The density of the tree community of the upper valley was lower than that of the lower valley,when the average DBH≤10 cm.When the average DBH≥10 cm,it was inverse. For the proportion of different DBH sizes,the upper valley > the steep slope > the ridge > the lower valley when the average DBH≥30 cm,and the lower valley > the upper valley > the steep slope > the ridge when the average DBH ≥ 50 cm. Of the lower v
ISSN:1001-7488
DOI:10.11707/j.1001-7488.20180101