共查询到19条相似文献,搜索用时 156 毫秒
1.
在全球气候变暖的背景下,冰架系统是监视和预测冰盖稳定性的理想研究区域。然而传统的冰架观测与调查方法只能从某一侧面揭示冰架的运动状态和演化信息,无法预测其未来变化;冰盖模式作为非常有潜力的数值计算方法,成为研究和预测冰盖/冰架演化的热点领域。Lambert冰川-Amery冰架系统是东南极冰盖最大的冰川系统,对于研究东南极冰盖的物质平衡和冰盖稳定性具有重要意义。使用PISM冰盖模式,对该冰川系统的流动过程进行模拟,得到冰表面流速场数据,并将模拟流速场与实测数据进行对比,发现两者在大部分区域吻合较好,但在冰架前缘处呈现出一些差异。进一步讨论差异可能的来源以及模拟可以改进的地方。 相似文献
2.
南极冰盖物质平衡最新的研究进展表明,西南极洲表现出两种变化模式,西部在增厚,而北面在更快地减薄。西南极冰盖总体可能正在减薄,其物质损失的速率可能足以使海平面每年上升近0.2mm。东南极冰盖物质不平衡可能很小,甚至其符号还不能被确定。南极半岛正在经历着快速变化。目前还不能可靠地估算南极冰盖的物质平衡状态。同时,大型冰川的停滞,一些冰川流速加快,冰盖大范围加速减薄,冰架大面积的快速崩解和支流冰川的加速,以及着地线强烈的底部融化等显示出南极冰盖存在快速变化。南极冰盖物质平衡未来的重点研究领域是开展冰盖表面高程变化的监测与模拟,确定表面物质平衡及其在各冰流盆地的分布,着地线的冰流通量,冰架底部的融化,了解冰后期冰盖退缩的动力过程,以及开发、对比和改进与冰盖物质平衡模拟和预测相关的各种模型。 相似文献
3.
南极区域潮汐是计算南极物质平衡和南极冰架表面冰流速的重要影响因素,同时对于研究冰架崩解和全球气候变暖具有重要作用。南极潮汐测量的方法从最初的实时测量,发展到了卫星测高和遥感监测以及建立数值模型预测的阶段。已有研究表明潮汐周期与冰架表面流速间存在一定关联,例如Filchner-Ronne冰架和Ross冰架的潮汐变化与冰流速度的联系为:在大潮时冰流速度达到最快,小潮时冰流速度达到最慢。研究还对南极典型冰架区域潮汐特征及对冰架表面冰流速、高程变化等的影响进行了总结。今后的研究不仅需要继续关注西南极和南极半岛的潮汐变化,更加需要对东南极稀疏的区域进行潮汐观测,这对于构建整个南极潮汐数据库和提高数值模型的精度具有重要意义。 相似文献
4.
冰川表面流速作为南极冰盖物质平衡估算的一项重要内容,对于研究全球变暖背景下的海平面上升具有重要意义。随着技术的进步,南极的冰流速监测方法已经从传统的花杆测量、光学仪器边角测量,发展到先进的GPS测量和遥感观测。南极冰盖冰流速总体特征是:海岸带冰流速快于内陆冰流速,冰架冰流速快于陆地冰流速,西南极冰流速快于东南极冰流速。未来加强对数据稀疏地区的冰流速监测,扩大冰流速研究的时间尺度,开发冰流速研究的新方法以及构建冰流速波动与气候变化相互关系模型等,成为南极冰流速研究的新热点。 相似文献
5.
《极地研究》2021,33(3)
西南极冰盖对全球气候变化和海平面升高有着重要的影响,其动力学和热力学过程是极地研究的重点之一。冰盖数值模式的模拟可以在缺乏观测数据的情况下获得研究区域的动力学和热力学过程,已经成为研究南极的一种重要手段。西南极玛丽伯德地靠近福特山脉和罗斯冰架,本文使用Elmer/Ice模拟了玛丽伯德地西部区域的冰流速场、温度场和应力场。研究发现,该区域冰盖底部温度场变化较小,大部分都达到了压力融点,只有小部分区域的冰盖底部仍处于压力融点以下。使用三个不同的地热通量(80 mW·m~(-2),100mW·m~(-2),120 mW·m~(-2))模拟得到的底部温度场无明显差异。冰盖表面流速较快,冰盖表面的冰总体上从地势较高的区域流向地势较低的区域,垂直方向对表面冰流速影响最大;冰盖底部应力场的大小大致和冰厚的变化相反。通过高程剖面图简要分析了冰流速和冰盖应力场的变化原因,认为冰下深谷的存在可能对冰盖流速场和应力场有很大的影响。 相似文献
6.
7.
冰川流速分析对于研究南极冰盖物质平衡、海平面上升和全球气候变化具有重要意义。以ALOS/PALSAR影像为数据源,采用SAR特征跟踪方法,结合DEM数据估算Amery冰架上游冰川流速。结果表明,Amery冰架上游主流线流速为540—720 m·a-1,冰川流速随海拔的降低逐渐减小。受基岩和两侧山体的影响,主流线流速大,越靠近两侧山体流速越小。这个结果与NASA 2000年利用SAR重复轨道干涉测量方法测定的流速接近。基于裸露岩石作为特征点的分析表明,该方法误差较小,获取的冰川流速比较可靠。 相似文献
8.
在全球变暖的背景下, 东南极冰盖显著地出现降雪增多冰厚增大的现象, 然而由于有关东南极冰盖
的观测数据相对缺乏, 因而很难对东南极冰盖大范围的冰盖动力学、热力学状态细节进行整体性评估。
Dome A 到中山站断面是横穿南极冰盖计划的核心断面之一。该断面穿越的兰伯特(Lambert)冰川上游、甘
布尔采夫(Gamburtsev)冰下山脉和Dome A 区域是南极科学研究的热点区域, 因此具有重要的研究价值。本
研究使用已多次在南极冰盖有过成功模拟应用的三维有限元冰盖模式Elmer/Ice, 对该区域的内部温度场和
速度场进行了模拟, 得到了冰盖的流速场和温度场数据, 并将模拟数据与传统估测数据进行了对比, 发现
两者在总体趋势上吻合。研究表明, 该研究区域冰盖的底部温度大部分达到了压力熔点, 只有少部分靠近内
陆的冰盖底部未达到; 在冰盖内陆区域, 水平速度场非常小, 在靠近冰架区域时, 水平速度场突然增大, 而
垂直速度场只有在冰下地形发生显著波动时, 出现显著变化。在此基础上, 对Elmer/Ice 冰盖模式的应用前
景和需改进的方面进行了探讨。 相似文献
9.
《极地研究》2017,(3)
在全球变暖的背景下,东南极冰盖显著地出现降雪增多冰厚增大的现象,然而由于有关东南极冰盖的观测数据相对缺乏,因而很难对东南极冰盖大范围的冰盖动力学、热力学状态细节进行整体性评估。Dome A到中山站断面是横穿南极冰盖计划的核心断面之一。该断面穿越的兰伯特(Lambert)冰川上游、甘布尔采夫(Gamburtsev)冰下山脉和Dome A区域是南极科学研究的热点区域,因此具有重要的研究价值。本研究使用已多次在南极冰盖有过成功模拟应用的三维有限元冰盖模式Elmer/Ice,对该区域的内部温度场和速度场进行了模拟,得到了冰盖的流速场和温度场数据,并将模拟数据与传统估测数据进行了对比,发现两者在总体趋势上吻合。研究表明,该研究区域冰盖的底部温度大部分达到了压力熔点,只有少部分靠近内陆的冰盖底部未达到;在冰盖内陆区域,水平速度场非常小,在靠近冰架区域时,水平速度场突然增大,而垂直速度场只有在冰下地形发生显著波动时,出现显著变化。在此基础上,对Elmer/Ice冰盖模式的应用前景和需改进的方面进行了探讨。 相似文献
10.
南极冰架和冰川的变化是全南极动态变化的主要过程之一。利用MODIS L1B级250 m分辨率数据和Landsat陆地卫星15 m分辨率数据,针对不同尺度试验区域,分别监测2000—2016年间中山站附近地区的埃默里冰架、极时代冰川、极记录冰川和达尔克冰川的动态变化过程,并对试验区的动态变化进行分析。结果表明,埃默里冰架在近16年间一直处于向外扩展状态,前缘年扩展速率和扩展面积量较为稳定;极时代和极记录冰川不断向海洋流动,极时代冰川于2007年发生大型崩解,而极记录冰川前端的冰山在2014年发生崩解,冰山面积逐年递减,于2016年完全漂离冰川前缘;达尔克冰川则在监测年份内呈现出了交替性扩展和崩解的变化规律。 相似文献
11.
Predicted present-day evolution patterns of ice thickness and bedrock elevation over Greenland and Antarctica 总被引:4,自引:0,他引:4
This paper discusses predicted evolution patterns of present-day changes of ice thickness, surface elevation, and bedrock elevation over the Greenland and Antarctic continents. These were obtained from calculations with dynamic 3-D ice sheet models which were coupled to a visco-elastic solid Earth model. The experiments were initialized over the last two glacial cycles and subsequently averaged over the last 200 years to obtain the current evolution. The calculations indicate that the Antarctic Ice Sheet is still adjusting to the last glacial-interglacial transition yielding a decreasing ice volume and a rising bedrock elevation of the order of several centimetres per year. The Greenland Ice Sheet was found to be close to a stationary state with a mean thickness change of only a few millimetres per year, but the calculations revealed large spatial differences. Predicted patterns over Greenland are characterized by a small thickening over the ice sheet interior and a general thinning of the ablation area. In Antarctica, almost all of the predicted changes are concentrated in the West Antarctic Ice Sheet, which is still retreating at both the Weddell and Ross Sea margins. Over most of both ice sheets, the model indicates that the surface elevation trend is dominated by ice thickness changes rather than by bedrock elevation changes. 相似文献
12.
Late Quaternary Lakes in the McMurdo Sound Region of Antarctica 总被引:2,自引:0,他引:2
Chris H. Hendy 《Geografiska Annaler: Series A, Physical Geography》2000,82(2-3):411-432
Lake levels within the enclosed drainage basins of the Dry Valleys adjacent to McMurdo Sound have fluctuated widely during the Late Quaternary due to (a) local climate change and the consequent variation in the evaporation–precipitation regime, and (b) glacial fluctuations, resulting in changes in the catchment and meltwater drainage areas of the glaciers and, in some cases, in the volumes of the available lake basins. Three types of lakes can be distinguished on the basis of their water source: (1) lakes receiving the bulk of their water from melting of local alpine glaciers; (2) proglacial lakes associated with outlet glaciers from the East Antarctic Ice Sheet; (3) proglacial lakes associated with the marine oxygen-isotope stage 2 Ross Sea ice sheet and its precursors. The Dry Valleys contain an exceptionally long lacustrine record, extending back at least 300,000 years. Lacustrinesedimentation is cyclical, occurring over periods of about 100,000 years. During the last such cycle, relatively small lakes, both adjacent to East Antarctic outlet glaciers and fed by meltwater from alpine glaciers, existed during stage 5. However, these local lakes gave way to large proglacial lakes adjacent to the Ross Sea ice sheet in stage 2. The same relationship apparently occurred during the previous 100,000-year cycle. Dating of lacustrine sediments suggests that lakes proglacial to the Ross Sea ice sheet have existed during episodes of sea-level lowering during global glaciations. Lakes proglacial to outlet glaciers from the East Antarctic Ice Sheet have formed coincident with episodes of high eustatic sea level during interglacial periods. 相似文献
13.
Reconstruction of the Ross Ice Drainage System, Antarctica, at the Last Glacial Maximum 总被引:2,自引:0,他引:2
George H. Denton & Terence J. Hughes 《Geografiska Annaler: Series A, Physical Geography》2000,82(2-3):143-166
We present here a revised reconstruction of the Ross ice drainage system of Antarctica at the last glacial maximum (LGM) based on a recent convergence of terrestrial and marine data. The Ross drainage system includes all ice flowlines that enter the marine Ross Embayment. Today, it encompasses one-fourth of the ice-sheet surface, extending far inland into both East and West Antarctica. Grounding lines now situated in the inner Ross Embayment advanced seaward at the LGM (radiocarbon chronology in Denton and Marchant 2000 and in Hall and Denton 2000a, b), resulting in a thick grounded ice sheet across the Ross continental shelf. In response to this grounding in the Ross (and Weddell) Embayment, ice-surface elevations of the marine-based West Antarctic Ice Sheet were somewhat higher at the LGM than at present (Steig and White 1997; Borns et al. 1998; Ackert et al. 1999). At the same time, surface elevations of the East Antarctic Ice Sheet inland of the Transantarctic Mountains were slightly lower than now, except near outlet glaciers that were dammed by grounded ice in the Ross Embayment. The probable reason for this contrasting behavior is that lowered global sea level at the LGM, from growth of Northern Hemisphere ice sheets, caused widespread grounding of the marine portion of the Antarctic Ice Sheet, whereas decreased LGM accumulation led to slight surface lowering of the interior terrestrial ice sheet in East Antarctica. Rising sea level after the LGM tripped grounding-line recession in the Ross Embayment, which has probably continued to the present day (Conway et al. 1999). Hence, gravitational collapse of the grounded ice sheet from the Ross Embayment, accompanied by lowering of the interior West Antarctic ice surface and of outlet glaciers in the Transantarctic Mountains, occurred largely during the Holocene. At the same time, increased Holocene accumulation caused a slight rise of the inland East Antarctic ice surface. 相似文献
14.
Brenda L. Hall & George H. Denton 《Geografiska Annaler: Series A, Physical Geography》2000,82(2-3):305-336
More than 250 radiocarbon dates of lacustrine algae and marine shells afford a chronology for Ross Sea drift in eastern Taylor Valley. Dates of algae that lived in ice-dammed Glacial Lake Washburn show that grounded Ross Sea ice blocked the mouth of Taylor Valley between 8340 and 23,800 14 C yr bp . Ross Sea ice was at its maximum position at the Hjorth Hill moraine between 12,700 and 14,600 14 C yr bp and was within 500m distance of this position as late as 10,794 14 C yr bp . The implication is that the flow line of the Ross Sea ice sheet which extended around northern Ross Island and across McMurdo Sound to Taylor Valley must have remained intact, and hence that a grounded ice sheet must have existed east of Ross Island as late as 8340 14 C yr bp . Evidence from ice-dammed lakes in Taylor Valley and from shells from McMurdo Sound suggests grounding-line retreat from the vicinity of Ross Island between 6500 and 8340 14 C yr bp . If this is correct, then most recession to the present-day grounding line on the Siple Coast took place subsequently in the absence of significant deglacial sea-level rise. Rising sea level may have triggered internal mechanisms within the ice sheet that led to retreat, but did not in itself drive continued ice-sheet recession. Ice retreat, once set in motion, continued in the absence of sea-level forcing. If correct, this hypothesis implies that the grounding line could continue to recede into the interior reservoir of the West Antarctic Ice Sheet. 相似文献
15.
Zhang Qingsong 《地理学报(英文版)》1995,(2)
TheAnturCticisoneofthemostimpohantcoldsourcesonEarth,asabout24.5xlo'km'oficewhichtakes9opeamtoftotalicevolumeontheglobecoveronit.RotreaoradvanceOftheAntarcticIceSheetwillaffatfluCtuationofsealevel.ItiscalculatalthatiftheAntercticIceSheetlscomplotelymeltaw… 相似文献
16.
本文在简要介绍冰盖物质平衡及其对海平面影响的基础上,从整体法和分量法两个方面总结了南极冰盖物质平衡研究的最新进展,并分析了影响其物质平衡的不确定因素。研究表明,整个南极冰盖物质平衡呈现负增长的趋势,其中西南极Amundsen海湾附近的冰盖物质流失最为明显。另外,南极冰盖边缘的大部分地区还呈现变薄的趋势。南极冰盖物质流失是引起海平面上升的最大潜在因素之一,其冰架的缓冲作用、冰盖的不稳定性和冰盖底部融水的作用等不确定因素对南极冰盖物质平衡具有重要的影响。未来随着观测技术和数据处理技术的不断提高,南极冰盖物质平衡的估算及其不确定因素有望得到进一步的认识,从而为预测海平面的上升范围提供更多的理论和技术支撑。 相似文献
17.
目前,位于东南极冰盖分冰岭中心的冰穹-Dome A已成为深入理解南极冰盖演化、稳定性和找寻地球气候久远记录的研究热点。通过整理总结在Dome A获得的冰川学研究进展,结合国际冰芯科学研究计划(International Partnerships in Ice Core Sciences,简称IPICS)有关寻找最古老冰芯的相关资料,对Dome A的气象要素、地貌、冰厚、冰下地形、冰体流速、冰盖内部结构等环境特征进行归纳分析,讨论Dome A冰川学的最新发展及其对深冰芯钻探计划的影响,并分析概述Dome A深冰芯钻探需考虑的问题和未来发展动向。 相似文献
18.
LENA HÅKANSSON ANGELA GRAF STEFAN STRASKY SUSAN IVY-OCHS PETER W. KUBIK CHRISTIAN HJORT CHRISTIAN SCHLÜCHTER 《Geografiska Annaler: Series A, Physical Geography》2007,89(3):195-202
Earlier work in northeast Greenland has suggested a limited advance of the Greenland Ice Sheet during the Last Glacial Maximum (LGM). However, this concept has recently been challenged by marine geological studies, indicating grounded ice on the continental shelf at this time. New 10Be‐ages from the Store Koldewey island, northeast Greenland, suggest that unscoured mountain plateaus at the outer coast were covered at least partly by cold‐based ice during the LGM. It is, however, still inconclusive whether this ice was dynamically connected to the Greenland Ice Sheet or not. Regardless of the LGM ice sheet extent, the 10Be results from Store Koldewey add to a growing body of evidence suggesting considerable antiquity of crystalline unscoured terrain near present and Pleistocene ice sheet margins. 相似文献
19.
Relative sea level curves from glaciated North America reveal coherent spatial patterns of response times. In the Laurentide Ice Sheet area, curve half-lives range from 1.2–1.4 ka at the uplift centre to 1.7–2 ka in a ridge of high values inboard of the glacial limit. Half-lives decline from this ridge to less than 1 ka along the margin. In the Innuitian Ice Sheet area, half-lives are about 2 ka at the uplift centre and decline to less than 1 ka at the margin. The central Laurentide response times are about half those of central Fennoscandia. This accords with the theoretical expectation that central response times are inversely proportional to ice sheet radius for ice loads large enough that rebound at the centre is insensitive to lithospheric thickness. The Innuitian central response time indicates that rebound at the centre of this ice sheet, which is much smaller than the Fennoscandian Ice Sheet, remains sensitive to lithospheric thickness. Radial gradients in response times reflect the increasing influence of the lithosphere at sites increasingly closer to the margin. Along this gradient, rebound progresses as though at the centres of smaller and smaller ice sheets. That is, the effective spatial scale of the ice load decreases toward the margin. Near the glacial limit, postglacial isostatic adjustment is complicated by forebulge migration and collapse. This is seen most strongly in the relative sea level record of Atlantic Canada, which has subsided during the Holocene more than 20 m more than the adjacent American seaboard. The relative sea level history of some areas, notably the St. Lawrence Estuary, is complicated by tectonic processes. 相似文献