喀喇昆仑山脉什邡河流域主要冰川的测高分析

S. Baig
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引用次数: 2

摘要

喀喇昆仑独特的环境和多方面的山地地质动力学掩盖了海拔的变化(海拔的频率分布)。为了了解冰川环境的面积-海拔关系以及冰川面积大小和平衡线海拔位置的影响,我们报道了喀喇昆仑地区什邡河流域(陆地覆盖面积7046km²)山地冰川的海拔测量。我们应用了一种基于冰川测高直方图分析的方法和一种基于像素的回归工具来更新冰川轮廓。Shiger河流域最大的冰川面积(20.63%)很大一部分位于水平带的混合(高速)、净堆积(低速)区和垂直带的洁净尘沙区之间。最小的冰川区位于高海拔(净雪崩堆积和低速区,温度低于-18°C)和低海拔(主要是碎片和干净的尘封冰,净消融和中速区)的极端。最小和最大冰川的海拔高度存在重大差异,除了Panmah冰川外,最大冰川的大部分(如Baltoro、Biafo和Chogo Lungma)都位于ELA。海拔较低的最小冰川区可能会对印度河的上升产生显著的影响,因为与较大的冰川相比,它们的响应时间更短。高海拔的降水可能会维持该盆地的冰川,这些冰川的融水,特别是来自最大冰川的融雪,反过来又为喀什河提供水源。河流对冰川和冰川融化的依赖性表现在其流量的巨大季节变化上。
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Hypsometric analysis of major glaciers of Shigar river basin in the Karakoram mountain range
Unique environment and multifaceted mountain geo-dynamics of Karakoram disguise the variations present in the hypsometries (frequency distribution of altitudes). We report hypsometry of mountain glaciers of Shigar river basin (with a 7046 km² land-covered area) in the Karakoram, to understand area-elevation relations of glacier environments and effects of magnitude of glaciated-area and location of Equilibrium Line Altitude (ELA). We apply a method based on histogram analysis of glacier hypsometry and a pixel-based regression tool on an updated version of glacier outlines. A big portion of the largest glaciated area (20.63%) of Shiger river basin lies between mixed (high velocity), net accumulation (low velocity) regime of horizontal zone and clean-dusty regime of vertical zone. The smallest glaciated area is found in the extreme ends of the high (in the net avalanche accumulation and low velocity zone and temperature below -18° C) and low (the mostly debris and clean dust-covered ice, net ablation and medium velocity area) altitudes. There are major differences in the hypsometry of the smallest and largest glaciers like except Panmah glacier, large portions of largest glaciers (e.g. Baltoro, Biafo and Chogo Lungma) lies at ELA. Smallest glaciated area lies in low altitudes may contribute melt-water significantly to Indus river rise due to their shorter response times as compared to larger glaciers. The high elevation precipitation may sustain the glaciers of this basin whose melt-waters, especially those from largest glaciers, in turn feed the Shigar river. This dependence of the river on glacial and ice melt is manifested in the huge seasonal variation in its flow.
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