一种基于MODIS积雪产品的雪线高度提取方法

冰川雪线高度的遥感提取对冰川物质平衡研究具有重要意义。提出一种基于晴空环境下积雪覆盖频率的雪线高度提取方法。使用MOD10A1积雪产品中的像元积雪面积比例数据,提取了2000/2001-2014/2015年间高亚洲地区冰川消融期末雪线高度。使用实测的冰川年物质平衡资料和气象格网数据对提取的雪线高度变化的可信度进行分析。研究表明：近15 a高亚洲雪线高度变化及趋势具有明显的东西差异,雪线高度变化幅度自青藏高原内部地区向四周呈增加趋势,西部大于东部。提取的冰川雪线高度变化与观测的年物质平衡序列具有很高的相关性,对物质平衡波动的平均解释率可高达75%;与气象要素（气温、降水）的年际变化的相关性也较高,约61.58%的格网冰川雪线高度变化可以由夏季气温和季节降水解释。而高亚洲各分区冰川雪线高度的波动规律也与大气环流背景分布一致。因此提取的雪线高度变化具有冰川学意义,可以进一步应用于冰川物质平衡估算及模拟研究中。     

Interannual and seasonal variation of flow velocity in Koxkar Baxi Glacier from 2014 to 2020北大核心CSCD

Glacier flow is a key factor in understanding the nature of glaciers, and it is also one of the main research contents of glacier dynamics, which can provide basic support for rational utilization of glacier resources and early warning of glacier disasters. There are many mountain glaciers located in the west of China. The study on the spatiotemporal variation of surface velocity of glaciers also has great significance for the social and economic development of the western China. Koxkar Baxi Glacier, locates on the southern slopes of the Tomur Peak, is a typical dendritic glacier. In order to obtain the conditions of Koxkar Baxi Glacier’flow rates and its variation to further reveal the future of the variation of glacier, the spatiotemporal variability of glacier velocity was surveyed using correlation(COSI-Corr)method on Landsat imagery from 2014 to 2020. The results show that: (1)The average annual flow velocity of the Koxkar Baxi Glacier was 0. 04~0. 05 m·d-1 during 2014 to 2020. (2)The glacier reaches its maximum flow velocity near the center part, and the velocity decreased towards both lateral margins. In a longitudinal profile, ice flow velocity in the accumulation area increased down to the equilibrium line, while decreased towards the glacier terminal. The maximum velocity with 0. 17~ 0. 20 m·d-1 was found near the equilibrium line altitude. (3)The glacier flow velocity in warm seasons were 16. 67% faster than that in cold seasons. (4)The glacier flow velocity from 2014 to 2020 showed a slight decreasing trend, and the average flow velocity decreased 0. 01 m·d-1. (5)Temperature and precipitation had certain influence on the seasonal fluctuation and interannual variation of the flow velocity of the glacier. © 2022 Science Press (China). All rights reserved.     

Review on snowmelt runoff simulation in mountain regions,Northwest China北大核心CSCD

Snowmelt runoff is a valuable water resource in Northwest China. In the past few decades, progress has been achieved in snowmelt runoff simulation in mountainous areas, including observation and simulation of snow melt process, improvement and development of distributed snow melt runoff model, and ability for application of snow melt runoff model with temporal and spatial distribution driving data. The development of interpolation algorithm, remote sensing and data assimilation technology provides data support for the widespread application of distributed snowmelt runoff model in northwest mountainous regions of China. Climate warming and economic and social development will further aggravate the contradiction between supply and demand of water resources in the arid regions of Northwest China, which requires higher precision and detail spatial and temporal resolution of snowmelt runoff simulation. Based on the progress and challenges on snowmelt runoff simulation in mountainous regions of Northwest China, following studies need more attention：the mechanism of snow accumulation and ablation, snow cover spatial and temporal distribution monitoring and high precision of snow distribution data acquisition, quantitative climate change impact on river basin snowmelt runoff. © 2022 The authors.     

1980-2015年青藏高原东南部岗日嘎布山冰川变化的遥感监测

基于地形图、航空摄影相片和Landsat OLI遥感影像,对青藏高原东南部岗日嘎布山1980-2015年间的冰川变化进行了研究。结果表明： 1980-2015年,岗日嘎布山冰川面积减少679.50 km²（-24.91%）,年平均面积退缩率为0.71%·a^-1,末端海拔平均抬升了111 m。研究区范围内有10条冰川处于前进状态,冰川长度平均增加566.17 m;其余冰川均处于退缩状态,冰川长度平均减少823.49 m。与中国其他山系冰川相比,岗日嘎布山冰川面积年平均退缩速率较大,冰川长度变化速率最大,是冰川退缩最强烈的地区之一。岗日嘎布山冰川变化与气候变化关系密切,对研究区附近三个气象站5-9月平均气温和降水变化分析表明,自1980年以来,岗日嘎布山5-9月平均气温显著上升,降水变化不明显,是导致该区域冰川呈现快速退缩的主要原因。     

天山北坡降雨补给型河流径流变化特征及其影响因子分析

依据天山北坡军塘湖河近30年的径流数据及降水数据,运用Kendall秩相关系数、R/S分析、降水-径流深累积双曲线等多种方法,探讨了军塘湖河流径流的年内、年际、季节变化特征及其影响因子.结果表明：军塘湖河径流年内分配不均衡,主要集中于春季;径流的年代际变化呈现明显的上升趋势,递增率为0.0015 m³·s^-1·a^-1,Hurst指数为0.6326;年内不同季节表现出不同的变化趋势,其中春、秋两季表现出递减趋势,而夏、冬两季表现出递增的趋势.近年来,受到人为因素和自然要素的影响,径流在径流-降水累积曲线中表现出一定的偏移,人为因素对径流的影响贡献率最大达25.68%,而降水对径流的贡献率为74.32%.由此,降水是影响军塘湖河径流变化的主要因素,而人为影响为次要因素.