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沿海拔梯度短暂性河流对植物群落结构及分布的影响

宋梦奇, 倪铭遥, 李永华, 王耀龙, 朱金雷, 姚斌, 崔梦淳   

  1. 中国林业科学研究院, 100091
  • 收稿日期:2026-02-27 修回日期:2026-05-13 接受日期:2026-07-03
  • 基金资助:
    中央级公益性科研院所基本科研项目(CAFYBB2023ZA010-01)

The influence of ephemeral rivers along the altitude gradient on the structure and distribution of plant communities

  1. , 100091,
  • Received:2026-02-27 Revised:2026-05-13 Accepted:2026-07-03

摘要: 【目的】短暂性河流是干旱区重要的生态廊道与生物避难所,但海拔与短暂性河流对干旱区植物群落结构及分布交互影响尚不清楚。为此,本研究以中国西北干旱区敦煌盆地内的西土沟和大泉河流域为对象,研究短暂性河流内外物种个体大小、物种分布及群落结构的差异;并探究短暂性河流及海拔梯度对植物群落的影响是否存在交互作用。【方法】采用Mann–Whitney U检验比较短暂性河流内外植物群落特征差异,采用多层级混合效应模型分析和河流与海拔对植物群落的交互影响,采用广义可加模型识别海拔响应的非线性特征,采用Wilcoxon符号秩检验评估共有物种分布上下限是否存在显著位移。【结果】1)短暂性河流突破了干旱区水、热限制下的物种垂直地带性分布,不仅增加了物种数(河内总物种数量是河外的 1.9–2.7 倍),而且西土沟共有物种在河内的分布下限显著降低(p < 0.05),大泉河同样表现出相同趋势,但两流域物种分布上限均未显著上移。2)Mann-Whitney U非参数检验显示,两条河内植物平均高度、冠幅均显著高于河外(p < 0.05),西土沟植被盖度表现为河内显著大于河外(p < 0.05),大泉河植物密度表现为河外显著大于河内(p < 0.05),其他群落特征并未表现出统计学上的显著差异。3)随海拔升高,河流内外植物平均高度及平均冠幅降低,而植被盖度及植物密度上升,且河外下降或升高幅度更大。4)混合效应模型表明,海拔与河流位置共同驱动植被盖度、植物密度变化,平均高度主要受海拔影响,反映了水文地貌过程在不同海拔带对群落构建的非线性调控。【结论】短暂性河流作为干旱区关键的生态庇护所,它与海拔共同驱动了干旱区植物群落结构与空间分布格局。

关键词: 干旱区, 短暂性河流, 海拔, 物种分布, 植物群落结构

Abstract: Aim Ephemeral rivers are important ecological corridors and biological refuges in arid regions, but the interactive effects of elevation and ephemeral rivers on plant community structure and distribution in arid regions remain unclear. Therefore, this study focuses on the West Tugou and Daquan River basins within the Dunhuang Basin in the arid region of Northwest China. It investigates the differences in individual plant size, species distribution, and community structure inside and outside the ephemeral rivers, and explores whether there are interactive effects between ephemeral rivers and elevation gradients on plant communities. Method The Mann–Whitney U test was used to compare the differences in plant community characteristics between the upstream and downstream of the ephemeral river. A multi-level mixed-effects model was employed to analyze and investigate the interactive effects of the river and altitude on the plant community. A generalized additive model was utilized to identify the nonlinear characteristics of the altitude response. The Wilcoxon signed-rank test was used to assess whether there was a significant shift in the upper and lower limits of the distribution of common species. Important findings 1) The ephemeral river broke through the vertical zonation distribution of species under the water and heat limitations of the arid area. It not only increased the number of species (the total number of species within the river was 1.9–2.7 times that of the outside), but also significantly reduced the lower limit of species distribution in the river channel (p < 0.05) for the Xitugou river. The Daquan River also showed a downward trend, but the upper limit of species distribution in both river basins did not show a comprehensive upward movement. 2) The Mann-Whitney U non-parametric test showed that the average plant height and crown width inside both rivers were significantly higher than those outside (p < 0.05). In the West Tugou area, vegetation coverage was significantly greater inside the river than outside (p < 0.05), whereas in the Daquan River area, plant density was significantly greater outside the river than inside (p < 0.05); other community characteristics showed no statistically significant differences. 3) As the altitude increases, the average height and average canopy width of plants inside and outside the river decrease, while the vegetation coverage and plant density increase. Moreover, the decrease or increase in the river area is more significant. 4) The mixed effect model indicates that altitude and river location jointly drive the changes in vegetation coverage, plant density, and community structure. The average height is mainly influenced by altitude, reflecting the nonlinear regulation of hydrological and geomorphic processes on community formation in different altitude zones.

Key words: Arid zone, Ephemeral river, Altitude, Species distribution, Plant community structure