尼泊尔中北部跨喜马拉雅干谷的瓦里恰纳松(Pinus wallichiana AB Jackson)再生

IF 0.2 Q4 GEOLOGY

Journal of Himalayan Earth Sciences Pub Date : 2011-06-28 DOI:10.3126/HJS.V6I8.1798

B. Ghimire, Kumar P. Mainali, H. D. Lekhak, R. P. Chaudhary, Amal Kumar Ghimeray

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引用次数: 38

摘要

本文研究了尼泊尔中北部跨喜马拉雅干谷马南亚高山针叶树树种瓦利奇亚松(Pinus wallichiana)森林组成和更新的海拔格局。35个样方(10米× 10米)在3300和4000个masl之间铺设在北坡和南坡上。我们测量了所有树种的每个成熟个体胸径(DBH≥10 cm)，并记录了幼苗数(DBH 30 cm)。我们还测量了土壤湿度和土壤pH值，估计了冠层盖度，并记录了每个样方的坡度和海拔。在南北向，所有树种和个别树种的乔木密度、幼苗密度、幼树密度和树基面积均随海拔升高而减小。这一趋势在很大程度上可以用高海拔地区日益严酷的环境来解释。研究区北坡的森林密度大于南坡，北坡各大小类(幼苗、幼树和成熟植物)的密度和基部面积均大于南坡。这些全方面的差异是由于南北土壤湿度的明显差异，而南北土壤湿度的差异又是由于日照的差异。在不同海拔和坡向的情况下，所有研究的森林都在更新，其密度-直径曲线呈反j型。幼苗和幼树丰度的海拔格局只能用海拔来解释。虽然其他变量(如冠层)被认为对种子萌发和幼苗建立有重要影响，但它们并不是幼苗和树苗密度的重要预测因子。这种识别关系的失败可能是由于我们使用了非参数测试(树回归分析)，我们用来建立密度与其潜在解释变量之间的关系，或者由于我们选择了1个标准误差规则，产生了回归树的次优模型。关键词:密度-直径曲线;再生;幼苗;树苗;海拔高度;树冠;Manang Valley DOI: http://dx.doi.org/10.3126/hjs.v6i8.1798喜马拉雅科学杂志Vol.6 Issue 8 2010 pp.19-26

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Regeneration of Pinus wallichiana AB Jackson in a trans-Himalayan dry valley of north-central Nepal

We studied the elevational pattern of forest composition and regeneration of the subalpine conifer tree species Pinus wallichiana in Manang, a trans-Himalayan dry valley in north-central Nepal. Thirty-five quadrats (10 m × 10 m) were laid between 3300 and 4000 masl on both north- and south-facing slopes. We measured diameter at breast height (DBH) of each mature individual of all tree species (DBH ≥10 cm), and recorded the number of seedlings (DBH 30 cm). We also measured soil moisture and soil pH, estimated canopy cover, and recorded slope and altitude in each quadrat. For all species together and for several species individually, tree density, seedling density, sapling density and tree basal area were found to decrease with elevation on both north and south aspects. This trend is largely explained by the progressively harsher environment at higher elevations. The north-facing slopes in our study area have denser forests than the south-facing slopes, the density of all size classes (seedling, sapling and mature plants) and basal area being greater on the northern aspects. These aspect-wide differences are attributable to the stark difference in soil moisture between northern and southern aspects, which is in turn due to the difference in insolation. Irrespective of elevation and aspect, all the forests studied are regenerating, as indicated by inverse J-shaped density-diameter curves. The elevational pattern of seedling and sapling abundance is explained only by elevation. Whereas other variables (e.g., canopy) are considered to have an important influence on seed germination and seedling establishment, they turn out not to be significant predictors of density of seedlings and saplings. This failure to identify a relationship is probably due to our use of non-parametric test (tree regression analysis) that we used to establish the relationship between density and its potential explanatory variables or due to our selection of 1 standard error rule yielding sub-optimal models for regression trees. Key words: density-diameter curve; regeneration; seedling; sapling; altitude; canopy; Manang Valley DOI: http://dx.doi.org/10.3126/hjs.v6i8.1798 Himalayan Journal of Sciences Vol.6 Issue 8 2010 pp.19-26

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来源期刊

Journal of Himalayan Earth Sciences GEOLOGY-

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： The "Journal of Himalayan Earth Sciences" (JHES) is a biannual journal, managed by the National Centre of Excellence in Geology, University of Peshawar, Pakistan. JHES is recognized by Higher Education Commission (HEC), Pakistan in "X" Category. The JHES entertains research articles relevant to the field of geosciences. Typical geoscience-related topics include sedimentary geology, igneous, and metamorphic geology and geochemistry, geographical information system/remote sensing related to natural hazards, and geo-environmental issues and earth quake seismology, and engineering and exploration geophysics. However, as the journal name implies, the articles addressing research relevant to the above disciplines in the Himalayan region will be given prime importance and relevance.