Altitudinal gradients shaping tree diversity and regeneration dynamics in mountainous ecosystems.

IF 4.3 2区生物学 Q1 PLANT SCIENCES

BMC Plant Biology Pub Date : 2025-05-16 DOI:10.1186/s12870-025-06677-6

Syed Waseem Gillani, Mushtaq Ahmad, Muhammad Manzoor, Muhammad Waheed, Abeer Al-Andal, Beatrice Ambo Fonge

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引用次数: 0

Abstract

Background: Himalayan forests are crucial for ecological roles but face threats from natural and human factors. This study examines tree diversity, regeneration patterns, and human-induced threats in the Kashmir Western Himalayas. We use indices and multivariate analysis to investigate species richness, composition shifts, and the impact of ongoing anthropogenic threats on forest ecosystems.

Methods: Vegetation sampling was conducted at 45 sites in the Kashmir Himalayas, at elevations of 600 to 3600 m. Data were collected using quadrat methods. To investigate species diversity, composition, and human influences, statistical analyses such as Shannon and Simpson indices, Non-metric multidimensional scaling (nMDS), Principal Component Analysis (PCA), Canonical Correspondence Analysis (CCA), and regression models were performed using R software and OriginPro.

Results: A total of 33 tree species were recorded in different ecological zones: the temperate zone had the most species (22), followed by the subtropical zone (16) and the subalpine zone (7). The temperate zone had the highest Shannon index (2.15 ± 0.24) and Simpson index (0.86 ± 0.03), while the subalpine zone had the lowest Simpson index (0.48 ± 0.20). The subtropical zone had the highest evenness index (0.95 ± 0.04). PCA showed that PC1 explained 37.2% of the variation and PC2 explained 14.9%. Human-induced disturbances were significant drivers of species composition shifts, particularly in the subtropical and temperate zones, accounting for 11% of the variation. Picea smithiana had the highest density in the temperate zone (615.62 individuals per hectare). The regression analysis indicated a quadratic relationship between tree density and DBH (R² values from 0.66641 to 0.92089). Regeneration patterns varied: Pinus roxburghii had high seedling density in the subtropical zone, while Abies pindrow and Pinus wallichiana regenerated well in the temperate zone, and recruitment was limited in the subalpine zone.

Conclusion: Elevation significantly influences on tree diversity and regeneration patterns, while human-induced factors shape species composition. Anthropogenic activities notably affect tree diversity, especially at lower elevations, thereby threatening ecosystem resilience. This study emphasizes the necessity of sustainable forest management practices to mitigate human impacts and promote forest regeneration, particularly in subtropical and temperate zones.

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海拔梯度对山地生态系统树木多样性和更新动态的影响

背景：喜马拉雅森林对生态至关重要，但也面临着自然和人为因素的威胁。本研究考察了西喜马拉雅克什米尔地区的树木多样性、再生模式和人为威胁。利用指数和多变量分析方法，研究了森林物种丰富度、组成变化以及持续的人为威胁对森林生态系统的影响。方法：在克什米尔喜马拉雅地区海拔600 ~ 3600 m的45个地点进行植被采样。采用样方法收集资料。采用R软件和OriginPro软件进行Shannon和Simpson指数、非度量多维尺度（nMDS）、主成分分析（PCA）、典型对应分析（CCA）和回归模型等统计分析，研究物种多样性、组成和人为影响。结果：不同生态区共记录树种33种，其中温带树种最多（22种），其次为亚热带树种（16种）和亚高山树种（7种）。温带Shannon指数最高（2.15±0.24），Simpson指数最高（0.86±0.03），亚高山区Simpson指数最低（0.48±0.20）。亚热带均匀度指数最高（0.95±0.04）。PCA显示PC1解释了37.2%的变异，PC2解释了14.9%的变异。人为干扰是物种组成变化的重要驱动因素，特别是在亚热带和温带，占物种组成变化的11%。温带云杉密度最高，为615.62株/公顷。回归分析表明，树密度与胸径呈二次关系（R²为0.66641 ~ 0.92089）。再生模式各不相同：亚热带地区刺梨松苗木密度高，温带地区冷杉和黄松苗木密度高，亚高寒地区再生有限。结论：海拔高度对林分多样性和更新格局有显著影响，而人为因素影响林分组成。人类活动显著影响树木多样性，特别是在低海拔地区，从而威胁到生态系统的恢复能力。这项研究强调了可持续森林管理实践的必要性，以减轻人类影响和促进森林更新，特别是在亚热带和温带地区。

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来源期刊

BMC Plant Biology 生物-植物科学

CiteScore

8.40

自引率

3.80%

发文量

539

审稿时长

3.8 months

期刊介绍： BMC Plant Biology is an open access, peer-reviewed journal that considers articles on all aspects of plant biology, including molecular, cellular, tissue, organ and whole organism research.