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941.
Identifying run‐off contributions during melt‐induced run‐off events in a glacierized alpine catchment 下载免费PDF全文
Michael Engel Daniele Penna Giacomo Bertoldi Andrea Dell'Agnese Chris Soulsby Francesco Comiti 《水文研究》2016,30(3):343-364
We analysed contributions to run‐off using hourly stream water samples from seven individual melt‐induced run‐off events (plus one rainfall event) during 2011, 2012 and 2013 in two nested glacierized catchments in the Eastern Italian Alps. Electrical conductivity and stable isotopes of water were used for mixing analysis and two‐component and three‐component hydrograph separation. High‐elevation snowmelt, glacier melt and autumn groundwater were identified as major end‐members. Discharge and tracers in the stream followed the diurnal variations of air temperature but markedly reacted to rainfall inputs. Hysteresis patterns between discharge and electrical conductivity during the melt‐induced run‐off events revealed contrasting loop directions at the two monitored stream sections. Snowmelt contribution to run‐off was highest in June and July (up to 33%), whereas the maximum contribution of glacier melt was reached in August (up to 65%). The maximum groundwater and rainfall contributions were 62% and 11%, respectively. Run‐off events were generally characterized by decreasing snowmelt and increasing glacier melt fractions from the beginning to the end of the summer 2012, while run‐off events in 2013 showed less variable snowmelt and lower glacier melt contributions than in 2012. The results provided essential insights into the complex dynamics of melt‐induced run‐off events and may be of further use in the context of water resource management in alpine catchments. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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943.
Two decades have passed since China and Japan jointly launched hydrological & climatological observations on the glaciers in Tanggula Pass, Tibetan Plateau. Although the research institutions involved have been either restructured or renamed, their work, between 1989 and 1993, was ground-breaking and remains significant even to this day. Some observation sites established at that time are still utilized for large-scaled projects sponsored by GAME/Tibet, NSFC (Natural Science Foundation of China) and the Major State Basic Research Development Program of China (973 Program). Recently, a glacier monitoring system has been established on the cap of Dongkemadi Glacier, and is expected to make further contributions to research on the change of the cryospheric and climatic environment in the area. 相似文献
944.
The recent loss of mountain glaciers in response to climate warming has been reported across a range of latitudes globally, but the processes involved are not always straightforward. In southern Pacific mid‐latitudes, twentieth‐century glacier fluctuations are thought to reflect the strength of westerly atmospheric circulation, which brings increased precipitation, leading to mass gains. We present a study of the response of Mangaehuehu Glacier, a cirque glacier on Mt Ruapehu, to climate over the last two decades. Glacier surface area fluctuated in size over this period, corresponding closely with mean end‐of‐summer snowlines in the Southern Alps. The key control on glacier extent appears to be ablation season temperature, itself controlled by regional atmospheric circulation, including El Niño‐Southern Oscillation, Interdecadal Pacific Oscillation (IPO), and to a lesser extent, Southern Annular Mode (SAM). Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
945.
1974—2010年雅鲁藏布江源头杰玛央宗冰川及冰湖变化初步研究 总被引:9,自引:5,他引:4
青藏高原冰川和冰湖是气候变化敏感的指示器.基于1974年的地形图及其生成的DEM数据、1990年和2000年的TM影像、2005年和2010年的ETM+影像、以及2010年和2009年的GPS实测数据,应用3S技术分析了1974—2010年37a来雅鲁藏布江源头杰玛央宗冰川和冰湖的变化特征.结果表明:冰川面积减小了5.02%(21.78km2减小至20.67km2)、冰川末端退缩了768m(速度为21m.a-1);冰湖面积增加了63.7%(0.70km2增加至1.14km2),冰湖体积扩大约9.8×106 m3.普兰县气象站的观测资料表明,近37a来气温呈快速上升趋势,而降雨量明显减少,气候暖干化是杰玛央宗冰川和冰湖变化的主要原因.若该区气候的暖干趋势进一步加剧,必然导致杰玛央宗冰川退缩进一步加剧,冰湖溃决的可能性将会增大. 相似文献
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Similar to most mountain glaciers in the world, Urumqi Glacier No. 1 (UG1), the best observed glacier in China with continued glaciological and climatological monitoring records of longer than 50 years has experienced an accelerated recession during the past several decades. The purpose of this study is to investigate the acceleration of recession. By taking UG1 as an example, we analyze the generic mechanisms of acceleration of shrinkage of continental mountain glaciers. The results indicate that the accel... 相似文献
949.
Glacial features in the geological record provide essential clues about past behavior of climate. Of the numerous physical systems on earth, glaciers are one of most responsive to climate change, especially small glaciers, their direct marginal response taking only a few years or decades to be expressed. Accelerating recession of modern glaciers raises the issue of the climate’s impact on water runoff. Data based on topographic maps and Advanced Spaceborne Thermal Emission and Radiometer (ASTER) imagery sho... 相似文献
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