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长白山次生杨桦林种群空间点格局及密度制约效应
引用本文:安璐,吴兆飞,范春雨,张春雨,赵秀海. 长白山次生杨桦林种群空间点格局及密度制约效应[J]. 生态学报, 2021, 41(4): 1461-1471
作者姓名:安璐  吴兆飞  范春雨  张春雨  赵秀海
作者单位:北京林业大学国家林业和草原局森林经营工程技术研究中心, 北京 100083
基金项目:国家自然科学基金项目(31670643)
摘    要:以长白山5.2 hm2次生杨桦林样地为研究对象,利用空间点格局分析的双相关函数gr)以及随机标签零模型和案例-对照设计法,探讨了树木种群空间格局及其密度制约效应。研究结果表明:生境异质性对不同生活型以及不同树种的成熟个体在大尺度范围上具有强烈影响。剔除生境异质性带来的影响后,在14个常见树种中有12个树种在小尺度上呈显著的空间聚集分布格局;随着空间尺度的增加聚集性分布树种数量急剧下降,在18 m尺度上聚集率下降到0。全部14个常见树种均呈现出显著的密度制约效应,表明密度制约是调节温带森林树木种群空间结构的主要作用机制。此外,密度制约与物种多度呈负相关,与亚林层和灌木层树种的同种聚集强度呈正相关。并且随着空间尺度增大受密度制约影响的树种百分比逐渐减小,14个常见树种中有11个在0-1 m处达到最大的密度制约强度。

关 键 词:次生杨桦林  生境异质性  空间格局  密度制约
收稿时间:2020-03-23
修稿时间:2020-11-04

Spatial point patterns and effects of density dependence in secondary poplar-birch forest, Changbai Mountains, China
AN Lu,WU Zhaofei,FAN Chunyu,ZHANG Chunyu,ZHAO Xiuhai. Spatial point patterns and effects of density dependence in secondary poplar-birch forest, Changbai Mountains, China[J]. Acta Ecologica Sinica, 2021, 41(4): 1461-1471
Authors:AN Lu  WU Zhaofei  FAN Chunyu  ZHANG Chunyu  ZHAO Xiuhai
Affiliation:Research Center of Forest Management Engineering of State Forestry and Grassland Administration, Beijing Forestry University, Beijing 100083, China
Abstract:Taking 5.2 hm2 secondary poplar-birch forest plot in Changbai Mountains as the research object, the pair-correlation function g(r) of the spatial point pattern analysis and the random label null model and case-control design method were used to discuss the spatial pattern of tree populations and its density dependence effect. The results showed that the L(r) function is more suitable for analyzing whether there is habitat heterogeneity in a research plot. Habitat heterogeneity had a strong impact on mature individuals with different life forms and different tree species on a large scale. This showed that when studying the spatial pattern, the impact of habitat heterogeneity on the research results should be fully considered. After excluding the impact of habitat heterogeneity, 12 of the 14 common tree species showed the significantly spatial aggregation distribution pattern on a small scale. With the increasing of spatial scale, the number of aggregated distribution tree species decreased sharply, and the aggregation rate dropped to 0 on the 18 m scale. The 14 common tree species all exhibited significant density dependence effects, indicating that density dependence was the main mechanism for regulating the spatial structure of temperate forest tree populations. In addition, density dependence was negatively correlated with species abundance and positively correlated with the same species aggregation intensity of sub-forest and shrub layer species. And with the increasing of spatial scale, the percentage of tree species affected by density dependence gradually decreased, and 11 of 14 common tree species reached the maximum density dependence intensity at 0-1 m.
Keywords:secondary poplar-birch forest  habitat heterogeneity  spatial pattern  density dependence
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