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基于结构方程模型的天然白桦次生林林下生态功能评价

邹星晨黄海山严芝银彭小静贺康宁

生态学报2026，Vol.46Issue(7)：3521-3531,11.

生态学报2026，Vol.46Issue(7)：3521-3531,11.DOI:10.20103/j.stxb.202505201252

基于结构方程模型的天然白桦次生林林下生态功能评价

Evaluation of understory ecological functions in natural secondary Betula platyphylla forests based on Structural Equation Model

邹星晨 ¹黄海山 ²严芝银 ²彭小静 ¹贺康宁¹

作者信息

1. 北京林业大学水土保持学院,北京 100083
2. 大通回族土族自治县宝库林场,西宁 810100
折叠

摘要

Abstract

As a crucial pioneer species in the alpine region of Qinghai,Betula platyphylla(BP)natural secondary forests play an irreplaceable ecological role in water conservation,soil protection,and biodiversity conservation.Therefore,scientifically assessing the understory ecological functions of BP is essential for regional ecological security.This study examined 45 plots of BP natural secondary forests with different stand densities ranging from 150 to 1000 trees/hm2 in Baoku Forest Farm,systematically analyzing differences in soil nutrients,understory vegetation diversity,and water-holding capacity under different density regimes.A structural equation model(SEM)was employed to quantitatively evaluate the comprehensive ecological functions,aiming to identify the optimal stand density range for maximizing ecological benefits.Results showed that water-holding capacity contributed most to the comprehensive ecological function(weight 0.3252),followed by soil nutrients(0.2602),shrub diversity(0.2358),and herb diversity(0.1789).In this alpine region with limited annual precipitation(520 mm),hydrological regulation was the key factor in maintaining ecosystem stability.The ecological function evaluation across density gradients demonstrated that ecological functions exhibited significant fluctuations with changes in stand density,with the medium-high density group(600-800 trees/hm2)scoring highest(0.66±0.13,Grade Ⅳ),significantly outperforming the high-density group(＞800 trees/hm2,0.49±0.11).Therefore,it was recommended that BP forest management in Qinghai's alpine regions maintain stand density within the optimal range of 600-800 trees/hm2,avoiding excessive density that would intensify resource competition and deteriorate the microenvironment,or excessive sparseness that would reduce ecological benefits,thereby maximizing the understory ecological functions of BP forests and achieving ecosystem stability and sustainable development.

关键词

白桦/结构方程模型/林下生态功能评价/天然次生林

Key words

Betula platyphylla/Structural Equation Modeling(SEM)/understory ecological function evaluation/natural secondary forest

引用本文复制引用

邹星晨,黄海山,严芝银,彭小静,贺康宁..基于结构方程模型的天然白桦次生林林下生态功能评价[J].生态学报,2026,46(7):3521-3531,11.

基金项目

青海省科技厅重点研发与转化计划(2022-SF-160) （2022-SF-160）

生态学报

OACHSSCD

ISSN：1000-0933

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