共查询到20条相似文献,搜索用时 93 毫秒
1.
西天山托木尔峰南麓大型山谷冰川冰舌区消融特征分析 总被引:4,自引:3,他引:1
基于对托木尔峰南麓托木尔型山谷冰川的野外考察和典型冰川的定位观测,对冰面被表碛广泛覆盖的所谓“托木尔型”冰川冰舌区表碛与冰面消融的关系进行了研究. 结果表明:表碛对冰面消融、冰川水文过程、冰川变化等均具有重要影响,当表碛厚度超过3 cm时,表碛对冰面消融就产生明显抑制作用,且随着厚度增加,冰面消融显明减弱. 科其喀尔冰川表面的观测表明,由末端向上,表碛厚度逐渐减薄. 受表碛影响,科其喀尔冰川区最大的消融量出现在海拔3 800~3 900 m之间、表碛物厚度小于10 cm的区域内;冰川消融强度由此向上随着海拔的升高而下降,向下随表碛厚度的增大而减弱. 冰面湖的发育是表碛覆盖冰川的又一主要特征,湖水对冰面的融蚀和快速排泄成为冰面产汇流的主要过程. 科其喀尔冰川研究表明,两三个冰面湖排泄形成的融蚀冰量就相当于冰川末端退缩造成的冰量损失. 因此,冰面湖等热喀斯特地形的形成、扩张融蚀、融穿排泄、形成湖区低地,这一周而复始的过程不仅是其主要消融方式之一,而且也强烈的影响着冰川水文及冰川变化. 托木尔峰南麓地区大型冰川变化主要以厚度减薄为主,而不是像大多数冰川显著的变化主要表现在末端和面积减少方面. 相似文献
2.
3.
4.
乌鲁木齐河源1号冰川不同时期雪层剖面及成冰带对比研究 总被引:7,自引:5,他引:2
对20世纪60年代、80年代和21世纪初天山乌鲁木齐河源1号冰川(以下简称1号冰川)雪层剖面特征、成冰带的对比分析研究,发现自20世纪60年代以来,1号冰川雪层剖面厚度明显减薄,结构变得简单,各层界限变得模糊.成冰带类型及其分布发生了明显变化,60年代存在于冷气候条件下的冷渗浸带,80年代被渗浸带所替代.21世纪初,1号冰川成冰带变化更为显著,尤其是东支,顶部已具有消融带特征.研究表明,20世纪80年代以来河源区气候变暖是导致上述变化的主要原因. 相似文献
5.
3.2 ka BP以来念青唐古拉山东部则普冰川波动与环境变化 总被引:4,自引:1,他引:3
基于野外考察和 14C 年代测定, 确定了3.2 ka BP以来念青唐古拉山东部则普冰川的冰进序列.新冰期冰进可明显分为3次: 即大拿[ 14C ( 3 242 ±101)a BP]、大拿顶[ 14C ( 1 920 ±110)~ (1 540 ±85)a BP]和白同[ 14C ( 1 056 ±115)a BP]冰进.新冰期盛时, 则普冰川比现代长6.9 km, 面积大17.10 km2, 雪线降低约157 m, 温度降低1.0~1.9 ℃. 小冰期可分出2次: 即15世纪或16世纪[ 14C (580±130)a BP]和19世纪[ 14C (197±80)a BP, (190±80)a BP]冰进. 小冰期盛时, 则普冰川比现代长2.0 km, 面积大11.16 km2, 雪线降低约100 m, 温度降低0.65~1.23 ℃. 现代则普冰川, 冰面表碛特别发育, 其厚度亦很大, 冰舌末端退缩难以辨认. 但冰川减薄很强烈, 边缘两侧形成2~3道现代侧碛, 并高出现代冰面20~30 m. 对埋藏腐殖质土壤层和木炭碎屑经 14C 年代测定, 结果表明在(720±210)~( 2 010 ±120)a BP间, 波堆藏布流域存在砍伐森林、开垦田地和放牧的人类活动. 相似文献
6.
青藏高原冰川对气候变化的响应及趋势预测 总被引:49,自引:3,他引:46
青藏高原是世界上中低纬度地区最大的现代冰川分布区,这里冰川末端在近百年来总的进退变化趋势是退缩,但在本世纪初至20~30年代和70~80年代间多数冰川曾出现过稳定甚至前进。对比近百年来气候变化,冰川变化虽然滞后于温度变化,但它们之间存在着很好的对应关系,多数冰川对温度变化滞后时间在10~20年间。根据80年代以来平均物质净平衡值,大致将青藏高原划分为:内部为平衡或正平衡区;向外为负平衡区;边缘为强负平衡区。以冰川对气候响应滞后关系预测,在今后10~20年间,青藏高原边缘冰川末端仍继续处于后退,而高原内部冰川末端位置变化不大。 相似文献
7.
科其喀尔巴西冰川的近地层基本气象特征 总被引:7,自引:3,他引:4
利用2003-2006年天山托木尔峰地区科其喀尔巴西冰川的考察资料,对该冰川近地层的基本气象特征进行了分析.研究表明:冰川从4月中下旬开始即有明显消融,主消融期为5-9月,1月冰川区的气温最低.冰川中上部的气温直减率较小,说明该处的冰川冷效应较弱;而冰川下部较大的气温直减率,则可能主要与消融区连续的表碛覆盖有关.5-9月集中了全年约75%的降水,而冬季的降水稀少.降水的分布存在明显的高低分带,低降水带位于冰川中上部的海拔3 700 m附近,而冰川末端和冰川上部的降水量较大.受地形和下垫面条件的影响,冰川下部的山谷风非常发育,而冰川上部局地环流较弱. 相似文献
8.
普若岗日冰原及其小冰期以来的冰川变化 总被引:39,自引:26,他引:13
普若岗日是藏北高原最大的由数个冰帽型冰川组合成的大冰原.冰川覆盖面积422.58km2,冰储量为52.5153km3.冰川雪线海拔5620~5860m.冰原呈辐射状向周围微切割的宽浅山谷溢出50多条长短不等的冰舌,最大的可伸至山麓地带,形成宽尾状冰舌.在一些下伸较低的冰舌段,形成有许多冰塔林,以雄伟壮观的连座冰塔林和雏形冰塔林为主.在东南部一些冰舌段雏形冰塔林的上部,分布着奇特的新月型雪冰丘和链状排列有序的雪冰丘.小冰期以来,普若岗日的冰川呈退缩趋势.环绕冰舌分布的冰碛序列,在北部和东南部普遍可区分出3道.对比研究认为,分别属于小冰期3次寒冷期冰进的遗迹.而西部小冰期冰川作用的范围较小.按小冰期最盛时的规模量测当时的冰川面积,和现在相比该时段内冰川面积减少了24.20km2,当时冰川面积比现在大57%.由此引起的冰川资源的减少为3.6583km3,相当于36.583×108m3的水量.在普若岗日西侧,小冰期后期至20世纪70年代,冰川退缩了20m;70年代至90年代末,冰川退缩了40~50m;平均1.5~1.9m·a-1;1999年9月至2000年10月,退缩4~5m.明显反映出逐渐加剧的变化趋势.和其它地区相比较,普若岗日冰原变化比较小,表现出比较稳定的状。 相似文献
9.
喜马拉雅山脉西段纳木那尼冰川正在强烈萎缩 总被引:5,自引:6,他引:5
2004年和2006年对青藏高原西南部野外考察结果表明,喜马拉雅山脉西段的纳木那尼冰川正在强烈萎缩.在过去几十年内,许多支冰川已经和纳木那尼主冰川分离,冰川末端形成大量不连续的冰塔林,冰川末端在1976—2006年平均退缩速度为5 m.a-1左右,2004—2006年后退速度达到7.8m.a-1,表现出近期加速后退态势.考察发现,冰川表面由于强烈消融而形成数量众多的融化坑,冰川表面强烈减薄,2004—2006年期间冰川冰舌段海拔5 800 m处冰体厚度减薄率为1.42 m.a-1,在海拔6 050 m冰川大平台处为0.67 m.a-1.冰川物质损耗严重,利用现有花杆资料计算2004—2006年年均冰川物质平衡为-685 mm水当量.邻近纳木那尼冰川的普兰县气象站观测资料表明,近30 a来气温呈快速上升趋势,而降水量急剧减少,气候暖干是造成纳木那尼冰川强烈亏损的主要原因.如果近期气候暖干态势持续加剧,必然导致该区冰川更加强烈的物质损耗,冰川萎缩速度将进一步加快. 相似文献
10.
念青唐古拉山羊八井附近古仁河口冰川的变化 总被引:6,自引:5,他引:1
利用GPS测量冰川不同时期的相关位置,结合地形图和航空照片的分析,在2004-2006年连续监测了念青唐古拉山羊八井古仁河口冰川的变化.结果表明:自小冰期以来,古仁河口冰川表现出较强的退缩状态,小冰期最盛期冰川末端海拔比现在降低100 m;小冰期后期到1970年,冰川末端退缩幅度约为7.0 m.a-1,1970-2004年平均退缩幅度为8.3 m.a-1.观测得到2004-2005年的平均退缩量约9.5 m.a-1,2005-2006年的平均退缩量为17.0 m.a-1.古仁河口冰川变化的现状,显示出冰川退缩幅度呈增大趋势.这预示着在全球气候变暖影响下,羊八井地区的冰川消融在逐渐增大,冰川水资源锐减,由此引起冰川面积的缩小. 相似文献
11.
Using radio echo sounder, ice thickness of Keqikaer Glacier tongue was measured in 1981 and 2004. Data obtained by comparing
topographical maps, aerial and satellite photographs at different times, illustrates changes of the thickness and advance/retreat
of Keqikaer Glacier. Keqikaer Glacier has been in intensive retreat since the 1990s and become thinner since the 1980s. Measured
thickness of the ice tongue indicates reducing with a speed of 0.5–1.5 m a−1 since 1981. The shrinkage of the glacier terminus is less than 2% of the total length during the last 30 years; however,
the retreat of terminus position and the thinning of the ice thickness provides significant information that these glaciers
on the south slope of Mt. Tuomuer are in an intensively decreasing phase in recent time. 相似文献
12.
Internal structure and trend of glacier change assessed by geophysical investigations 总被引:1,自引:1,他引:0
Ground-penetrating radar (GPR) is a useful tool for mapping the thickness, morphology and structure of alpine glaciers. Englacial information obtained during a field survey of the Koxkar Glacier in Tian Shan, China, in June 2008 was retrieved from GPR profile data. At least four specific types of structures can be identified from the GPR reflection image: (1) hyperbolae from point sources, (2) irregular linear distributed features, (3) a dense chaotic return zone above a clearly defined bed reflection and (4) linear reflection within the ice body. The interpretation of a typical GPR image was validated using waveform analysis and a finite-difference time-domain numerical model. Through a series of data analyses, these types of reflection characteristics were strongly related to englacial melting. Considering also the GPR result of the debris thickness distribution at the terminus, it is concluded that strong glacial ablation does not occur at the terminus but at a position higher than the terminus where there is a thin layer of debris and relatively high temperatures. Meanwhile, there are many lakes receiving mostly englacial discharge that greatly erode the ice body through melt-water discharge in some regions, and a thick layer of debris insulating the ice body at the terminus; these features may differentiate the retreat of the Koxkar Glacier from the general retreat of glaciers. In the future, with the ablation of glaciers, the central positions of intense ablation may be disconnected and there may be a dead zone at the terminus. 相似文献
13.
新疆哈密是资源性缺水地区,冰川是该区主要的供给水源。为了对该区冰川和水文水资源的现状和未来变化做出合理评价和预估,以榆树沟6号冰川和庙尔沟冰帽为代表,结合野外实测资料以及近年来在冰川变化领域所取得的相关研究成果,综合分析了在气候变暖背景下新疆哈密地区冰川近年来的变化过程及对水资源的影响。结果表明,1972-2011年,榆树沟6号冰川厚度平均减薄20 m,减薄速率约为0.51 m/a,冰川末端退缩254 m,年均退缩约6.5 m。由于强烈消融,冰川表面径流发育明显,且在末端有冰碛湖形成。相比之下,庙尔沟冰帽消融速率相对较小,对气候变暖的敏感度较低,这与冰帽类型和所处海拔较高有直接关系。综合分析发现,流域有无冰川覆盖及覆盖的比率大小,直接造成哈密地区不同流域近期河川径流变化的差异。 相似文献
14.
15.
We use the radiocarbon ages of marine shells and terrestrial vegetation to reconstruct relative sea level (RSL) history in northern Southeast Alaska. RSL fell below its present level around 13,900 cal yr BP, suggesting regional deglaciation was complete by then. RSL stayed at least several meters below modern levels until the mid-Holocene, when it began a fluctuating rise that probably tracked isostatic depression and rebound caused by varying ice loads in nearby Glacier Bay. This fluctuating RSL rise likely reflects the episodic but progressive advance of ice in Glacier Bay that started around 6000 cal yr BP. After that time, RSL low stands probably signaled minor episodes of glacier retreat/thinning that triggered isostatic rebound and land uplift. Progressive, down-fjord advance of the Glacier Bay glacier during the late Holocene is consistent with the main driver of this glacial system being the dynamics of its terminus rather than climate change directly. Only after the glacier reached an exposed position protruding into Icy Strait ca. AD 1750, did its terminus succumb - a century before the climate changes that marked the end of the Little Ice Age - to the catastrophic retreat that triggered the rapid isostatic rebound and RSL fall occurring today in Icy Strait. 相似文献
16.
天山乌鲁木齐河源1号冰川物质平衡特征 总被引:7,自引:2,他引:5
统计了天山乌鲁木齐河源1号冰川自1980年以来冰川表面的单点物质平衡,分析了不同季节物质平衡及其冰川变化特征。研究表明,1号冰川厚度较之1959年平均减薄了9 599 mm;1997—2002年为实际观测以来连续的强负物质平衡时段,平均物质平衡为-739.6 mm /a。物质平衡与气温、降水的相关分析显示:1号冰川物质平衡主要取决于夏季平均气温的高低,二者具有较好的反相关关系(相关系数为-0.72),而与降水的关系相对较差。20世纪80年代末以来,1号冰川退缩速度明显增大,尤以2000—2002年为甚,西支冰川退缩速度为连续的高值(退缩速度分别为6.92 m/a、6.95 m/a和6.25 m/a);东支冰川的退缩速度与高度大于4 200 m的高度带区间的平均物质平衡值有较好的相关关系(相关系数为0.65),表明了1号冰川进退的动力主要源于冰川积累区的物质平衡大小。 相似文献
17.
珠穆朗玛峰东绒布冰川厚度测量与地形特征分析 总被引:3,自引:3,他引:0
冰川地形特征的研究是构建冰川流动模型的基础. 根据探地雷达获取的冰川厚度数据(2009年)和1∶5万地形图(1974年), 得到沿珠穆朗玛峰东绒布冰川主流线的冰厚度分布以及5条冰川槽谷的形态特征. 结果表明: 沿东绒布冰川主流线的平均表面坡度约为0.08, 平均厚度约为190 m, 最大厚度约为320 m (海拔6 300 m); 在1974-2009年间沿冰川主流线冰厚度平均减薄约30 m; 东绒布冰川表碛覆盖区与白冰区尚未分离, 目前很可能是一条停滞冰川, 冰川末端位于海拔5 540 m附近(下游方向); 东绒布冰川槽谷形态接近于V型, 而不是U型(b指数变化范围约为0.7~1.3). 相似文献
18.
PUYU WANG ZHONGQIN LI SHUANG JIN PING ZHOU HONGBING YAO WENBIN WANG 《Journal of Earth System Science》2014,123(3):581-591
The results of radar survey for three times are presented, aiming to determine ice thickness, volume and subglacial topography of Urumqi Glacier No. 1, Tianshan Mountains, central Asia. Results show that the distribution of ice is more in the center and lesser at both ends of the glacier. The bedrock is quite regular with altitudes decreasing towards the ice front, showing the U-shaped subglacial valley. By comparison, typical ice thinning along the centerline of the East Branch of the glacier was 10–18 m for the period 1981–2006, reaching a maximum of ~30 m at the terminus. The corresponding ice volume was 10296.2 × 10 4 m 3, 8797.9 × 10 4 m 3 and 8115.0 × 10 4 m 3 in 1981, 2001 and 2006, respectively. It has decreased by 21.2% during the past 25 years, which is the direct result of glacier thinning. In the same period, the ice thickness, area and terminus decreased by 12.2%, 10.3%, and 3.6%, respectively. These changes are responses to the regional climatic warming, which show a dramatic increase of 0.6°C (10 a) ?1 during the period 1981–2006. 相似文献
19.
42a来天山乌鲁木齐河源1号冰川变化及趋势预测 总被引:38,自引:20,他引:18
1959-2000年间天山乌鲁木齐河源1号冰川发生了显著变化,冰川物质平衡累计达-7976.0mm,冰川末端退缩171.06m,冰川面积缩小0.217km2,冰川厚度平均减薄8.86m,冰储量减小21.9×106m3,冰川运动速度平均减小39.3%,冰川成冰带谱上移,冷渗浸重结晶带消失.从冰川物质平衡反映的气候变化趋势推测,1号冰川要扭亏为盈,改变已有的巨大的物质亏损(-7976.0mm),除非要连续21a出现42a来最大正平衡(+374.0mm).已有的观测研究表明,这种情况不大可能出现,1号冰川目前的退缩趋势还将持续相当一段时间,至少在未来20~30a内不会出现明显的前进.从树木年轮反映的冷暖气候变化周期性推测,目前正处小冰期以来第三个温暖期.若这次温暖期重现62~67a周期的情况,则温暖气候还将持续20~30a左右.可见1号冰川至少还将持续退缩20~30a. 相似文献
20.
The now acknowledged thinning of the Greenland Ice Sheet raises concerns about its potential contribution to future sea level rise. In order to appreciate the full extent of its contribution to sea level rise, reconstruction of the ice sheet's most recent last deglaciation could provide key information on the timing and the height of the ice sheet at a time of rapid climate readjustment. We measured 10Be concentrations in 12 samples collected along longitudinal and altitudinal transects from Sisimiut to within 10 km of the Isunguata Sermia Glacier ice margin on the western coast of Greenland. Along the longitudinal transect, we collected three perched boulders and two bedrocks. In addition, we sampled seven perched boulders along a vertical transect in a valley within 10 km of the Isunguata Sermia Glacier ice margin. Our pilot dataset constrains the height of the ice sheet during the Last Glacial Maximum (LGM) between 500 m and 840 m (including the 120 m relative sea level depression at the time of the LGM, 21 ka BP). From the transect we estimate the thinning of the ice sheet at the end of the deglaciation between 12.3 ± 1.5 10Be ka (n = 2) and 8.3 ± 1.2 10Be ka (n = 3) to be ~6 cm a?1 over this time period. Direct dating of the retreat of the western margin of the Greenland Ice Sheet has the potential to better constrain the retreat rate of the ice margin, the thickness of the former ice sheet as well as its response to climate change. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献