Altitudinal gradient and its correlation with plant diversity in Daral Valley, Swat in Pakistan using multivariate analysis.

IF 2.6 Q2 ECOLOGY

BMC ecology and evolution Pub Date : 2025-10-10 DOI:10.1186/s12862-025-02402-x

Maroof Shah, Hassan Sher, Haidar Ali, Rafi Ullah, Douglas Law, Mohamed Farouk Elsadek, Khalid S Al-Numair, Daniel K Y Tan, Muhammad Yasin

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Abstract

Background: Biodiversity is facing direct threats due to climate change and anthropogenic disturbance. Daral Valley, Swat is not an exception and was selected based on its remote location and altitudinal variation, encompassing diverse ecosystems from moist temperate forest to alpine region. Starting at 1400 m a.s.l. (above sea level) through moist temperate region up to the alpine region at 5001 m a.s.l.

Methods: A quadrat sampling method was employed, taking 300 quadrats of varying sizes to record the necessary phytosociological data for herb shrub and trees. Importance value indices (IVI) for vegetation were calculated and subjected to ordination techniques, such as canonical correspondence analysis (CCA).

Results: The flora comprised 381 taxa from 224 genera and 81 families. The most represented families being Asteraceae, Rosaceae, and Lamiaceae with 46, 28, and 22 species, respectively. Therophytes were the dominant life form, followed by hemicryptophytes, and geophytes. Among the leaf spectra classes, microphyll was the dominant leaf form followed by nanophyll and mesophyll, respectively. Using Ward's agglomerative cluster analysis, we identified three floristically and ecologically distinct associations related with different topographic and edaphic variables, viz., alpine zone (Group I, 3582-5001 m), sub alpine zone (Group II, 2900-3580 m) and moist temperate forest (Group III, 1432-2900 m). The calculated values for evenness and species richness were 0.99 (with a variance of 16.0%). The Pearson's correlation coefficient was 0.99, indicating a significant portion of the data aligned with the ordination axes.

Conclusion: Based on the data, it is evident that the altitudinal gradient in Daral Valley, Swat significantly influences plant diversity, with varying biotic and abiotic stresses impacting local flora at different elevations. Lower altitudes experience higher anthropogenic pressures such as deforestation, overgrazing, and collection for medicinal purposes, while higher altitudes faces climate challenges like temperature fluctuations and snowfall. These stressors collectively threaten the sustainability of plant habitats across the gradient. To ensure the preservation of plant diversity, it is crucial to implement targeted conservation measures that address the specific challenges at each altitudinal zone. This will help mitigate anthropogenic interruptions and promote the long-term sustainability of the valley's unique ecosystems.

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巴基斯坦斯瓦特河谷海拔梯度及其与植物多样性的关系

背景：由于气候变化和人为干扰，生物多样性正面临着直接威胁。斯瓦特的达拉尔山谷也不例外，它的选择是基于其偏远的地理位置和海拔的变化，包括从湿润温带森林到高山地区的各种生态系统。方法：采用样方采样法，取300个不同大小样方，记录草本灌木和乔木的植物社会学资料。利用典型对应分析（CCA）等排序技术，计算植被的重要值指数（IVI）。结果：共有81科224属381个分类群。最具代表性的科为菊科、蔷薇科和菖蒲科，分别有46种、28种和22种。旱生植物是主要的生命形式，其次是半旱生植物和地生植物。在叶片光谱分类中，微叶是优势叶型，其次是纳米叶型和叶肉叶型。通过Ward’s聚类分析，我们确定了与不同地形和土壤变量相关的3个植物区系和生态区系，即高寒带（组I，海拔3582-5001 m）、亚高寒带（组II，海拔2900-3580 m）和湿润温带森林（组III，海拔1432-2900 m）。均匀度和物种丰富度的计算值为0.99，方差为16.0%。Pearson相关系数为0.99，表明有很大一部分数据与纵轴对齐。结论：斯瓦特河谷海拔梯度对植物多样性有显著影响，不同海拔高度的生物和非生物胁迫对当地植物区系有不同的影响。低海拔地区面临着更大的人为压力，如森林砍伐、过度放牧和药用采集，而高海拔地区则面临着温度波动和降雪等气候挑战。这些压力源共同威胁着整个梯度上植物栖息地的可持续性。为确保植物多样性的保护，针对不同海拔带的具体挑战，实施有针对性的保护措施至关重要。这将有助于减少人为干扰，促进山谷独特生态系统的长期可持续性。

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BMC ecology and evolution

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