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1.
近50年黑河流域的冰川变化遥感分析 总被引:2,自引:0,他引:2
黑河流域作为中国西北地区第二大内陆流域,其景观类型完整、流域规模适中、社会生态环境问题典型,已成为寒区、旱区水文与水资源研究的热点地区。本研究结合1:5 万地形图、Landsat TM/ETM+遥感影像及数字高程模型数据,运用面向对象的图像信息自动提取方法,建立冰川信息提取知识规则,对近50 年黑河流域的冰川变化进行遥感分析。结果表明:(1)20 世纪60 年代黑河流域内的967 条冰川到2010 年左右,减少为800 条冰川,减少数量明显;冰川面积由361.69 km2退缩为231.17 km2,共减少130.51 km2,退缩率为36.08%,平均每条冰川面积退缩0.14 km2。(2)黑河流域冰川分布及变化存在显著的区域差异性,黑河冰川退缩率比北大河大16%左右;冰川末端主要分布在4300~4400 m、4400~4500 m和4500~4600 m海拔区间内。(3)与西部其他山地冰川相比,黑河流域冰川退缩率较高。(4)根据流域内6 个气象站资料分析表明,降水增加对冰川的补给无法弥补气温上升导致的冰川消融所带来的物质损失,是黑河流域冰川普遍萎缩的关键因素。 相似文献
2.
Glacier changes in the Qilian Mountains in the past half-century: Based on the revised First and Second Chinese Glacier Inventory 总被引:1,自引:0,他引:1
Glaciers are the most important fresh-water resources in arid and semi-arid regions of western China. According to the Second Chinese Glacier Inventory (SCGI), primarily compiled from Landsat TM/ETM+ images, the Qilian Mountains had 2684 glaciers covering an area of 1597.81±70.30 km2 and an ice volume of ~84.48 km3 from 2005 to 2010. While most glaciers are small (85.66% are <1.0 km2), some larger ones (12.74% in the range 1.0–5.0 km2) cover 42.44% of the total glacier area. The Laohugou Glacier No.12 (20.42 km2) located on the north slope of the Daxue Range is the only glacier >20 km2 in the Qilian Mountains. Median glacier elevation was 4972.7 m and gradually increased from east to west. Glaciers in the Qilian Mountains are distributed in Gansu and Qinghai provinces, which have 1492 glaciers (760.96 km2) and 1192 glaciers (836.85 km2), respectively. The Shule River basin contains the most glaciers in both area and volume. However, the Heihe River, the second largest inland river in China, has the minimum average glacier area. A comparison of glaciers from the SCGI and revised glacier inventory based on topographic maps and aerial photos taken from 1956 to 1983 indicate that all glaciers have receded, which is consistent with other mountain and plateau areas in western China. In the past half-century, the area and volume of glaciers decreased by 420.81 km2 (–20.88%) and 21.63 km3 (–20.26%), respectively. Glaciers with areas <1.0 km2 decreased the most in number and area recession. Due to glacier shrinkage, glaciers below 4000 m completely disappeared. Glacier changes in the Qilian Mountains presented a clear longitudinal zonality, i.e., the glaciers rapidly shrank in the east but slowly in the central-west. The primary cause of glacier recession was warming temperatures, which was slightly mitigated with increased precipitation. 相似文献
3.
塔里木河流域冰川变化及其对水资源影响 总被引:34,自引:1,他引:33
在近一个世纪以来全球变暖趋势显著的背景下,1980年代中后期以来新疆等地区的降水、出山径流出现持续增加现象,冰川也呈加速萎缩状态。作者从区域冰川研究入手,研究在这种气候暖湿转变背景下,塔里木河流域冰川变化的响应及其影响。通过应用大比例尺地形图、高分辨率卫星遥感影像及航空摄影照片获得了塔里木河流域3000多条冰川1960年代初以来的变化,表明该流域近30多年来冰川呈总体萎缩状态,冰川退缩已给塔里木河流域水资源变化带来了明显的影响。 相似文献
4.
1973-2010年阿尔金山冰川变化 总被引:3,自引:0,他引:3
利用1973 年MSS、1999 年ETM+和2010 年TM遥感影像资料,通过遥感图像处理和GIS技术,提取了阿尔金山地区三个时期的冰川信息,同时结合周边气象资料进行分析。结果表明:① 1973-2010 年,研究区冰川面积从347.99 km2 减少到293.77 km2,退缩了54.22km2,占1973 年冰川总面积的15.58%,年均退缩速率为0.42%·a-1。近10 年来冰川退缩尤为剧烈,年均退缩速率达到0.58%·a-1;② 研究区东段冰川退缩速率快于中段和西段;③ 冰川规模越小,退缩越明显;④ 研究区东坡冰川的面积退缩率最大,北坡次之,东南坡最小;⑤ 气温升高和降水在波动中变化不大是造成研究区冰川退缩的主要原因;⑥ 通过分形理论对研究区冰川空间结构特征进行分析,预计研究区冰川今后的消融速率仍将处于较高状态。 相似文献
5.
细胞周期检测点激酶2(checkpoint kinase 2,CHEK2)是由CHEK2基因编码的DNA双链断裂损伤的重要信号转导蛋白,参与G1期、S期和G2/M期的阻滞。CHEK2基因突变和乳腺癌病理特征与预后相关,是乳腺癌重要的易感基因。CHEK2有1100delC、Y390C以及I157T等多种突变形式,通过多条不同通路,如SDF-1和IL-6、BRCA1/2等影响细胞周期监测点的功能。在化疗方面,寻找CHEK2抑制剂以增强化疗或放疗对肿瘤细胞的杀伤效果也是当前的研究热点之一。本文针对乳腺癌中CHEK2突变的形式、机制以及可能的治疗靶点做一综述。 相似文献
6.
1959年来中国天山冰川资源时空变化 总被引:1,自引:0,他引:1
基于两期冰川编目数据与气象数据,对天山1959年来冰川资源的时空变化特征进行研究。研究发现:① 天山地区现有冰川7934条,面积7179.77 km2,冰储量756.48 km3。冰川数量以面积< 1 km2的冰川居多,面积以1~10 km2和≥ 20 km2的冰川为主,冰川集中分布在海拔3800~4800 m之间。② 在四级流域中,阿克苏河流域冰川面积最大为1721.75 km2,面积最小的是伊吾河流域,为56.03 km2。在各市(州)中,阿克苏地区冰川资源量最多,其面积和储量分别占天山总量的43.28%和68.85%;冰川资源量最少的市(州)是吐鲁番地区,面积和储量仅占天山总量的0.23%和0.07%。③ 1959年来,天山地区冰川面积减少了1619.82 km2(-18.41%),储量亏损了104.78 km3(-12.16%),其中数量以< 1 km2的冰川减少最多,面积减少以< 5 km2的冰川最为严重。④ 冰川变化呈现明显的区域差异,变化速度最快的是天山东段博格达北坡流域,变化最慢的是中部的渭干河流域。初步分析认为夏季气温显著上升带来的消融大于年内降水带来的积累是天山冰川退缩的主要原因。 相似文献
7.
近50年气候变化背景下中国西部冰川面积状况分析(英文) 总被引:3,自引:1,他引:2
Based on the glacier area variation records in the typical regions of China moni-tored by remote sensing, as well as the meteorological data of air temperature and precipitation from 139 stations and the 0℃ isotherm height from 28 stations, the glacier area shrinkage in China and its climatic background in the past half century was discussed. The initial glacier area calculated in this study was 23,982 km2 in the 1960s/1970s, but the present area was only 21,893 km2 in the 2000s. The area-weighted shrinking rate of glacier was 10.1%, and the interpolated annual percentage of area changes (APAC) of glacier was 0.3% a-1 since 1960. The high APAC was found at the Ili River Basin and the Junggar Interior Basin around the Tianshan Mountains, the Ob River Basin around the Altay Mountains, the Hexi Interior Basin around the Qilian Mountains, etc. The retreat of glacier was affected by the climatic background, and the influence on glacier of the slight-increased precipitation was counteracted by the significant warming in summer. 相似文献
8.
Glacier retreat is not only a symbol of temperature and precipitation change, but a dominating factor of glacial lake changes in alpine regions, which are of wide concern for high risk of potential outburst floods. Of all types of glacial lakes, moraine-dammed lakes may be the most dangerous to local residents in mountain regions. Thus, we monitored the dynamics of 12 moraine-dammed glacial lakes from 1974 to 2014 in the Poiqu River Basin of central west Himalayas, as well as their associated glaciers with a combination of remote sensing, topographic maps and digital elevation models (DEMs). Our results indicate that all monitored moraine-dammed glacial lakes have expanded by 7.46 km2 in total while the glaciers retreated by a total of 15.29 km2 correspondingly. Meteorological analysis indicates a warming and drying trend in the Nyalam region from 1974 to 2014, which accelerated glacier retreat and then augmented the supply of moraine-dammed glacial lakes from glacier melt. Lake volume and water depth changed from 1974 to 2014 which indicates that lakes Kangxico, Galongco, and Youmojanco have a high potential for outburst floods and in urgent need for continuous monitoring or artificial excavation to release water due to the quick increase in water depths and storage capacities. Lakes Jialongco and Cirenmaco, with outburst floods in 1981 and 2002, have a high potential risk for outburst floods because of rapid lake growth and steep slope gradients surrounding them. 相似文献
9.
近50 年气候变化背景下中国冰川面积状况分析 总被引:10,自引:0,他引:10
根据近年来中国典型区域冰川面积变化遥感监测数据,结合139 个地面站的气温、降水量与28 个探空站的0 ℃层高度气象资料,分析了近50 年气候变化背景下中国冰川面积状况。结果表明,研究区冰川面积从20 世纪60-70 年代的23982 km2减小到21 世纪初的21893 km2,根据冰川分布进行加权计算后冰川面积退缩了10.1%,对时间插补后得到1960 年以来的冰川面积年均变化率为0.3 % a-1。就冰川面积变化的空间分布特征而言,天山的伊犁河流域、准噶尔内流水系、阿尔泰山的鄂毕河流域、祁连山的河西内流水系等都是冰川退缩程度较高的区域。近50 年中国冰川区夏季地面气温与大气0 ℃层高度均呈上升趋势,而降水量的增幅却相对轻微,增长的降水量不足以抵消升温对冰川的影响,气候变暖是影响冰川面积变化的主要因素。 相似文献
10.
Glacial change in the vicinity of Mt. Qomolangma (Everest), central high Himalayas since 1976 总被引:4,自引:0,他引:4
Glaciers are one of the most important land covers in alpine regions and especially sensitive to global climate change. Remote
sensing has proved to be the best method of investigating the extent of glacial variations in remote mountainous areas. Using
Landsat thematic mapping (TM) and multi-spectral-scanner (MSS) images from Mt. Qomolangma (Everest) National Nature Preserve
(QNNP), central high Himalayas for 1976, 1988 and 2006, we derived glacial extent for these three periods. A combination of
object-oriented image interpretation methods, expert knowledge rules and field surveys were employed. Results showed that
(1) the glacial area in 2006 was 2710.17 ± 0.011 km2 (about 7.41% of the whole study area), and located mainly to the south and between 4700 m to 6800 m above sea level; (2)
from 1976 to 2006, glaciers reduced by 501.91 ± 0.035 km2 and glacial lakes expanded by 36.88 ± 0.035 km2; the rate of glacier retreat was higher in sub-basins on the southern slopes (16.79%) of the Himalayas than on the northern
slopes (14.40%); most glaciers retreated, and mainly occurred at an elevation of 4700–6400 m, and the estimated upper limit
of the retreat zone is between 6600 m and 6700 m; (3) increase in temperature and decrease in precipitation over the study
period are the key factors driving retreat. 相似文献
11.
Based on Landsat MSS/TM/OLI remote sensing images, glaciers vector data in the Qaidam Basin were extracted for 1977, 2002, and 2018, and their spatial-temporal variations were analyzed. Results show that there were 2,050 glaciers covering an area of 1,693.54±40.96 km2 and having an ice volume of 108.65±2.43 km3 in the Qaidam Basin in 2018. Glaciers with areas <1.0 km2 accounted for the largest number, while glaciers with areas of 1.0-5.0 km2 accounted for the most glacierized area. In the past 50 years, the number of glaciers decreased by 177, and the glacier area and volume reduced by 338.08 km2 (-8.12 km2/a) and 19.92 km3 (-0.48 km3/a), respectively. Retreat altitudes of glaciers were concentrated at 4,900-5,600 m, 4,700-5,200 m, and 5,000-5,600 m and reduced areas accounted for 95.53%, 77.80%, and 69.19% in the Kunlun, Qilian, and Altun mountains, respectively. The area of north-oriented glaciers decreased the most (-125.43 km2), but the west- and east-oriented glaciers retreated at the fastest rate (i.e., -27.11% and -27.10%). All glaciers showed a decreasing trend in sub-regions of the Qaidam Basin from 1977 to 2018. The decreasing trend was accelerated gradually from northwest to southeast in the northern part of the basin, while glacier change was the smallest in the middle section and gradually accelerated towards both ends of the basin's southern part. The temperature had continued to rise, and the precipitation had increased slowly in the Qaidam Basin during the past 50 years. The continuous rise in air temperature was the main reason for the retreat of glaciers. 相似文献
12.
1978-2015年喀喇昆仑山克勒青河流域冰川变化的遥感监测 总被引:1,自引:1,他引:0
本文采用1978、1991、2001和2015年的Landsat MSS、TM、ETM+和OLI遥感影像,通过遥感图像计算机辅助分类和目视解译等方法提取冰川边界,分析喀喇昆仑山克勒青河流域冰川在1978-2015年间的进退变化。结果表明:1978-2015年间研究区冰川面积由1821.70 km2减少至1675.92 km2,减少145.78 km2,占1978年冰川总面积的8.00%;冰川消融率较低,在气候变暖的背景下反而呈现出退缩速率由快变慢的趋势。研究区东南向冰川退缩率明显高于西北向,冰川退缩率随冰川规模的增大而减小。研究区内有27处冰川在1978-2015年间发生过特殊的前进现象,面积与长度显著增加。其中,木斯塔冰川西侧冰川末端在1996-1998年间前进速度为904 m/a,乔戈里冰川东侧冰川末端在2007-2009年间前进速度为446 m/a,5Y654D0097冰川末端在1978-1990年间前进速度为238 m/a,初步判定这三条冰川为跃动冰川。以10 a为滞后期分析研究区周边气象站点资料发现:研究区气温持续升高,降水量以1981年为分界点呈现“先减后增”趋势是冰川退缩速率减慢的原因之一;此外,亚大陆型冰川性质、巨大山势条件和高山冷储作用,也可能是冰川退缩幅度较小的原因。 相似文献
13.
Glaciers in the western USA contribute summer meltwater to regional hydrological systems. In the San Juan Mountains of Colorado, where glaciers do not exist, rock glaciers serve that function during the summer runoff period. Most rock glaciers in Colorado are located on northern slopes in mountainous areas; however, some rock glaciers in southwest Colorado have different aspects. In this study, we asked how slope aspect and rising air temperatures influence the hydrological processes of streams sourced from rock glaciers in the San Juan Mountains. We focused on three adjacent basins, Yankee Boy basin, Blue Lakes basin, and Mill Creek basin, which share a common peak, Gilpin Peak. Using HOBO® U20-001–04 water-level loggers, streamflow data were collected in each of these basins, below each rock glacier. Air temperature significantly influenced stream discharge below the rock glacier. Discharge and air temperature patterns indicate a possible air temperature threshold during late summer when rock glacier melt increases at a greater rate. The results also suggest that the aspect of rock glacier basins influences stream discharge, but that temperature and precipitation are likely larger components of melt regimes. 相似文献
14.
纳木错流域冰川和湖泊变化对气候变化的响应 总被引:7,自引:0,他引:7
利用纳木错流域及其周边地区气象资料、地形图、遥感资料以及野外实地观测资料,对该流域过去37年来气候变化特征以及冰川、湖泊变化过程进行了分析.结果表明,自1970年以来,纳木错区域气温上升趋势明显,其中冬季升温幅度高于夏季;降水量变化冬、夏两季均呈增加趋势,但冬季增加量不显著.在整体升温的背景下,纳木错流域冰川整体呈退缩趋势.1970~2007年间,流域内冰川面积减少37.1 km~2,占流域冰川面积的18.2%,年变化率为-1.0 km~2/a.流域内扎当冰川和拉弄冰川末端GPS观测表明,1970~2008年间冰川末端分别退缩381.8 m和489.5 m,年均退缩量为10.3 m和13.4 m.1970-2007年间,纳木错湖面积增加了72.6 km~2,增加速率为2.0 km~2/a.1970-1991年、1991-2000年和2000-2007年三个阶段的年增加速率不断增大,分别为1.1、2.8、3.4 km~2/a;湖泊水在在夏季升高非常显著,与湖泊面积的扩张是一致的. 相似文献
15.
叶如藏布流域冰川和冰湖众多,冰川融水是当地重要的淡水资源,是冰湖扩张的重要补给,冰湖溃决是当地潜在的自然灾害,因此分析该区域冰川和冰湖的现状与变化特征具有重要的现实意义。基于Landsat系列遥感影像,分析1990—2020年叶如藏布流域冰川和冰湖的分布与变化特征。结果表明:(1) 近30 a来叶如藏布流域冰川面积整体呈退缩趋势,由1990年167.80 km2退缩到2020年128.92 km2,共退缩38.88 km2,年均退缩率为0.77%·a-1,且研究区冰川主要分布在海拔5800~6400 m之间,集中分布在5°~20°的坡度上。(2) 与冰川变化趋势相反,研究时段冰湖整体表现为扩张趋势,由1990年5.72 km2增加到2020年8.81 km2,30 a共增加3.09 km2,年均增长率为1.80%·a-1。(3) 冰湖主要分布在海拔5000~5600 m范围内,坡度在0~10°分布面积较多,表碛覆盖型冰川与非表碛覆盖型冰川对冰湖有着不同程度的影响。(4) 1990—2017年叶如藏布流域温度与降水波动较大,温度整体呈上升趋势,降水量则波动下降,导致叶如藏布流域的冰川消融,冰湖扩张。通过上述研究以期为叶如藏布流域地区提供详细的冰川和冰湖面积分布与变化特征基础数据,为防灾减灾提供一定的支撑。 相似文献
16.
以Landsat MSS/TM/ETM+/OLI 遥感影像和数字高程模型为数据源,在遥感和地理信息技术支持下,分析了阿尔金山地区1973、1999、2010、2015 四期冰川变化特征。研究表明:(1)1973-2015 年,冰川总面积共退缩了58.78 km2,年均退缩率为0.40%·a-1,东段退缩速率最快,其次是西段,中段最慢,且冰川退缩速率呈现出先变快后变慢的变化趋势。(2)各个坡向都出现不同程度的退缩,偏南坡比偏北坡冰川退缩严重。(3)冰川面积退缩速率与规模等级呈现反相关关系,小规模冰川退缩速率快。(4)冰川分布随海拔变化呈正态分布,海拔越低退缩速率越快。统计分析气象数据表明,气候变暖是冰川退缩的主要原因,同时地形与冰川规模也影响冰川变化。 相似文献
17.
中亚天山山区冰雪变化及其对区域水资源的影响 总被引:8,自引:2,他引:6
冰川和积雪是构成山区固体水库的主体,对区域水资源稳定性具有调节功能,但深受气候变化的影响。以中亚天山为研究区域,基于长时间序列的观测数据,分别从冰川、积雪、水储量、径流等方面进行分析,并选取阿克苏河、开都河及乌鲁木齐河3个典型流域,研究天山山区冰雪变化对流域水资源的影响。结果表明:① 冰川退缩速率与面积的函数关系为f(x) = -0.53×x-0.15 (R2 = 0.42,RMSE = 0.086),说明小型冰川对气候变化的响应更为敏感。同时,中低海拔区域的冰川退缩速率大于高海拔区域;② 2003-2015年天山山区水储量的递减速率为-0.7±1.53 cm/a,天山中部区域的递减速率最大,这一结果与该区域冰川急剧退缩相吻合;③ 近半个多世纪以来,冰雪融水径流增加是这3个典型流域径流量增加的主要原因,其中阿克苏河增幅最大(达0.4×108 m3/a)。但自20世纪90年代中期以来,3个流域的径流量都呈减少趋势,与流域内冰川面积减少、厚度变薄及平衡线海拔升高的关系密切。研究结果揭示了气候变化驱动下的山区固态水体储量变化对流域水资源的影响机制,以期为流域水资源管理提供有价值的决策参考。 相似文献
18.
利用Landsat影像,EDM影像等数据资料,使用遥感图像处理及目视解译方法提取了喜马拉雅山东段中国与不丹边境地区冰川从1990—2015年4期边界,研究其与气温降水变化关系,并选取特定冰川,对其表面流速进行估算。研究表明:1990—2015年,该地区冰川退缩速率达0.43%·a-1,并且冰川年退缩率逐渐增大,表明冰川消融速度逐渐加快。该时段内,气温呈现明显上升趋势,导致了冰川的快速消融。通过对冰川表面流速的估算,得出中国与不丹边境地区研究选取的冰前湖对冰川流速具有促进作用,加速冰川消融。 相似文献
19.
1960年以来中国天山冰川面积及气候变化 总被引:11,自引:3,他引:8
Based on the statistics of glacier area variation measured in the Chinese Tianshan Mountains since 1960,the response of glacier area variation to climate change is discussed systematically.As a result,the total area of the glaciers has been reduced by 11.5% in the past 50 years,which is a weighted percentage according to the glacier area variations of 10 drainage basins separated by the Glacier Inventory of China (GIC).The annual percentage of area changes (APAC) of glaciers in the Chinese Tianshan Mountains is 0.31% after the standardization of the study period.The APAC varies widely for different drainage basins,but the glaciers are in a state of rapid retreat,generally.According to the 14 meteorological sta-tions in the Chinese Tianshan Mountains,both the temperature and precipitation display a marked increasing tendency from 1960 to 2009 at a rate of 0.34℃·(10a)-1 and 11 mm·(10a) -1,respectively.The temperature in the dry seasons (from November to March) increases rapidly at a rate of 0.46℃·(10a)-1,but the precipitation grows slowly at 2.3 mm·(10a)-1.While the temperature in the wet seasons (from April to October) grows at a rate of 0.25℃·(10a)-1,but the precipitation increases at 8.7 mm·(10a)-1.The annual and seasonal climatic trends ac-celerate the retreat of glaciers. 相似文献
20.
采用1:5万地形图、Landsat MSS/TM/ETM+/OLI遥感影像及数字高程模型数据,利用遥感和地理信息系统技术,并结合狮泉河、和田和于田3个气象站点1968-2013年的气温、降水量数据对松木希错流域的冰川、湖泊面积变化及其原因进行分析。结果表明:① 1968-2013年流域冰川面积不断退缩,由139.25 km2减少至137.27±0.02 km2,共减少1.98±0.02 km2,减少百分比为1.42%,2001年以后冰川退缩速度加快;② 1968-2013年松木希错面积不断扩张,由25.05 km2增加至32.62±0.02 km2,共扩张7.57±0.02 km2,扩张百分比为30.22%,且2001年之后扩张速率加快,在年代际上与冰川的退缩具有较好的耦合性;③ 1968-2013年湖面潜在蒸散量减少和降水增加分别是导致湖泊扩张的第一和第二影响因素,而升温引起的冰川、冻土融水增加有一定贡献,但影响较小且在年际尺度上不显著。 相似文献