南极冰架研究现状与埃默里冰架研究展望

南极冰架是揭示南极地区气候变化机制,预测全球气候变化的关键研究区域之一。概述了20世纪以来针对南极冰架所开展的科学研究工作,分别从冰架物质平衡过程、冰架形态特征及其内部结构监测、冰架海底海洋岩芯的沉积特征和冰架附近海域生态系统演化等方面总结了冰架研究所取得的丰硕成果。介绍了中国近几年在东南极洲埃默里冰架进行的科学考察活动,并依据南极冰架研究的国际未来计划提出了中国在埃默里冰架即将继续开展的研究工作。     

The tidal signals extraction from GPS data on the Amery Ice Shelf, Antarctica

Tidal motion is the source of short-term vertical motion that an ice shelf experiences, and hence has a significant impact on ice shelves. During the 2003/2004 Austral summer season, five days of GPS measurements were carried out on the front of the Amery Ice Shelf （AIS）, East Antarctica, by the 20th Chinese National Antarctica Research Expedition （CHINARE）. The GPS data was processed using GAMIT/GLOBK software with 2-hour static data segment and the vertical precision is less than 0.18 m. To verify our results for the vertical component, we compare the ice shelf GPS tidal signal with a tidal result derived from tide gauge measurements at China＇s Zhongshan Station on Antarctica. Comparison of the GPS results with the tide gauge were in good agreement in amplitude at the few cm level, which indicates that the tide under the front of Amery Ice Shelf is irregular semidiurnal tide, the maximal tidal differences is approximately 2 m. GPS data can be used to validate the ocean tide model around the Antarctic area and such studies are important to improve our knowledge of the Antarctic ice shelf mass balance and dynamical models of ice sheet/ocean interaction.     

基于特征跟踪方法的Amery冰架上游流速估算

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。     

PISM冰盖模式对Amery冰架流速场模拟的适用性

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。     

Hydrological character and sea-current structure in the front of Amery Ice Shelf

<正> Hydrological character and Sea-current profiles structure are studied andanalyzed in sea-area of the front of Amery Ice Shelf,Prydz Bay with LADCP,CTDdata.These LADCP,CTD data were acquired during the 19th Chinese Antarctic Sci-entific Expedition.Results of this study agree with that,there exist four differentkinds of water masses in the area of the front of Amery Ice Shelf in the summer of Ant-arctica.Current distribution presents a semi-circumfluence which flows in at the eastand flows out in the west.Moreover,clockwise and anti-clockwise vortices werefound in upper layer and mid-layer in the Prydz Bay.Western areas of these anti-clockwise vortices are positions of inflows from Prydz Bay to Amery Ice Shelf.Thesource of these inflows is the coastal westward current originated in the east of PrydzBay.All these characteristics come down to the pattern of circumfluence,ice meltrate under Ice Shelf,scale of Ice Shelf water production and form of water exchangesbetween area of Ice Shelf and area of Prydz Bay.     

南极海冰、冰穴和冰川冰及其对水团形成和变性的作用

本文利用前人的成果及笔者1992/1993年的南极海冰观测和收集的资料以及水文观测资料数据阐述了南极海冰的特性,特别是南极海冰过程、冰穴以及冰川冰对南极水团(南极表层水、南极底层水、南极陆架水、南极中层水以及南极冰架水)的形成和变性所起的特殊作用。 南极海冰覆盖面积的年际变化,夏季最大年份是最小年份的2倍多,冬季年间变化较小,最大仅为20％;但其季节变化非常大,冬季平均覆盖面积通常是夏季的5倍。南极海冰对大气-海洋间相互作用有重大影响,特别是深海洋区中冬季的结冰和发育造成的垂向对流、夏季的融化是形成南极表层水(含南极冬季水和南极夏季表层水),进而形成南极中层水的主要原因;南极陆架区的的海冰兴衰过程是形成南极陆架水的直接原因,它与变性南极绕极深层水混合并受到冰川冰的进一步冷却作用,成为形成南极底层水的主要水团;南极冰架底部的冷却、融化和冰架以下水体的结冰作用形成的高盐对流过程产生的南极冰架水,亦是形成南极底层水的贡献者。 冰穴是70年代以来卫星观测的重大发现。对其形成和对大气、海洋的影响作用尚不完全清楚,初步的研究成果表明,冰穴中产生的热盐对流对南极水团的形成、变性、大洋深层的翻转以及海洋-大气间的热量传输和气体交换起有非常重要的作用。     

Amery ice shelf DEM and its marine ice distribution

The Amery Ice Shelf is the largest ice shelf in East Antarctica.A new DEM was generated for this ice shelf,using kriging to interpolate the data from ICESat altimetry and the AIS-DEM.The ice thickness distribution map is conver ted from the new DEM,assuming hydrostatic equilibrium.The Amery Ice Shelf mari ne ice,up to 230 m thick,is concentrated in the northwest of the ice shelf.Th e volume of the marine ice is 2.38×10～3 km～3 and accounts for about 5.6% of t he shelf volume.     

南极冰架-海洋相互作用研究综述

本文介绍了近期南极冰架-海洋相互作用的研究进展。冰架底部融化速率大于前缘崩解通量,成为南极冰盖质量损失的首要途径。冰架下的海洋按照底部融化驱动因素的不同,可以分为由高密度陆架水驱动的冷冰腔和由变性绕极深层水驱动的暖冰腔。威德尔海的菲尔希纳-龙尼冰架和罗斯海的罗斯冰架属于冷冰腔,占南极冰架总面积的2/3,却只贡献了15%的净融化;东南太平洋扇区阿蒙森海和别林斯高晋海等若干属于暖冰腔的小型冰架,虽然只占南极冰架总面积的8%,却贡献了超过一半的冰架融水。以往看做冷冰腔的东南极托滕冰架和埃默里冰架,也相继发现有变性绕极深层水进入冰腔并造成底部融化。冰架对海洋有冷却和淡化的作用。冷冰腔输出的冰架水具有海洋中最低的温度,对南极陆架水性质乃至南极底层水的形成都有影响。冰架融化加剧,可能是近期观测到的南极底层水淡化的原因。     

埃默里冰架前缘水的特性和海流结构

本文利用中国第19次南极科学考察普里兹湾内埃默里冰架前缘水域观测的LADCP、 CTD资料,研究并分析了普里兹湾内埃默里冰架前缘水域水的温、盐特性和海流结构。资料显示,在冰架前缘的水域中存在着四种典型的夏季水团;流速分布显示出东进西出的特征。此外在普里兹湾内的上层和中层海洋中还存在着逆时针和顺时针方向的涡旋:逆时针涡旋西侧是普里兹湾向冰架入流的位置所在;入流的源地是普里兹湾东侧的沿岸西向流。这些特征涉及到夏季普里兹湾内的环流形式、冰架底部的消融速率和冰架水的生成规模以及冰架区域与冰架外普里兹湾内的水交换形式。     

基于改进FCLS算法的南极海冰密集度估算及算法比较

海冰具有良好的热力隔绝效应,它通过影响海洋和大气的热交换进而影响全球的气候变化。海冰密集度是极区海冰研究的重要指标之一。为实现高空间分辨率多类型海冰密集度的估算,本文将亮温极化梯度率和光谱梯度率引入基于全约束最小二乘法(fully constrained least squares,FCLS)的海冰密集度估算方法,并利用南极海冰过程与气候计划(Antarctic Sea Ice Processes and Climate,ASPe Ct)对改进方法的精度进行验证,然后与NASA Team2(NT2)算法和ARTIST Sea Ice(ASI)算法获得的海冰密集度结果进行了对比分析。结果显示,3种算法中本研究的方法精度最高,全年均方差13.8%,偏差为-0.7%;改进的方法对多年冰的估算精度优于一年冰。     

极地海冰厚度探测方法及其应用研究综述

海冰是全球气候变化的敏感指示器,对全球热平衡、大气环流、海洋水循环和温盐平衡起到至关重要的作用。海冰厚度作为海冰中最重要的参数之一,也是最难探测的地球物理参数。在回顾和分析基于仰视声纳、走航观测、电磁感应、微波遥感等方法进行极地海冰厚度探测和应用研究的基础上,着重阐述近年来利用卫星测高技术估算极地海冰厚度的研究现状与趋势,为我国开展相关科研工作提供参考。     

Climatic trend and the retreat and disintegration of ice shelves on the Antarctic Peninsula: an overview

Observation of the retreat and disintegration of ice shelves around the Antarctic Peninsula during the last three decades and associated changes in air temperature, measured at various meteorological stations on the Antarctic Peninsula, are reviewed. The climatically induced retreat of the northern Larsen Ice Shelf on the east coast and of the Wordie, George VI, and Wilkins ice shelves on the west coast amounted to about 10 000 km² since the mid-1960s. A summary is presented on the recession history of the Larsen Ice Shelf and on the collapse of those sections north of Robertson Island in early 1995. The area changes were derived from images of various satellites, dating back to a late 1963 image from the recently declassified US Argon space missions. This photograph reveals a previously unknown, minor advance of the northern Larsen Ice Shelf before 1975. During the period of retreat a consistent and pronounced warming trend was observed at the stations on both east and west coasts of the Antarctic Peninsula, but a major cause of the fast retreat and final collapse of the northernmost sections of the Larsen Ice Shelf were several unusually warm summers. Temperature records from the nearby station Marambio show that a positive mean summer temperature was reached for the first time in 1992-93. Recent observations indicate that the process of ice shelf disintegration is proceeding further south on both sides of the Antarctic Peninsula.     

Limnology of Two Antarctic Epishelf Lakes and their Potential to Record Periods of Ice Shelf Loss

George VI Ice Shelf is the largest ice shelf on the western side of the Antarctic Peninsula and its northern margin marks the southern most latitudinal limit of recent ice shelf retreat. As part of a project to reconstruct the long-term (Holocene) history of George VI Ice Shelf we studied two epishelf lakes impounded by the ice shelf at Ablation Point, on the east coast of Alexander Island. These lakes, Moutonnée and Ablation, are stratified water bodies with a lower marine layer and an upper freshwater layer. To determine if their sediment records could be used to detect past changes in the presence or absence of the ice shelf it was necessary to describe their present-day limnology and sedimentology. We measured water column chemistry and sampled the water column and sediments of the lakes along vertical and horizontal transects. We analysed these samples for diatoms, stable isotopes (δ¹⁸O, δ²H, δ¹³C_DIC, δ¹³C_org), geochemistry (TOC, TN, C/N ratios) and physical sedimentology (grain-size). This was supplemented by chemical and biological reference data from the catchments. Results showed that the water columns of both lakes are nutrient limited and deficient in phytoplankton. Benthic productivity is low and decreases with depth. Comparison of water column chemistry with an earlier survey shows a net increase in the thickness of the freshwater layer in Moutonnée Lake between 1973 and 2001, which could indicate that George VI Ice Shelf has thinned during this period. However, a similar trend was not observed in Ablation Lake (5 km to the north) and an alternative explanation is that the changes are a seasonal phenomena. Data from the surface sediment transects identified a number of proxies that respond to the present day stratification of the water column including diatom species composition, stable isotopes and geochemistry, particularly in Moutonnée Lake. Collectively these data have been used to develop a conceptual model for determining past ice shelf configuration in epishelf lakes. Specifically, periods of past ice shelf loss, and the removal of the ice dam, would see the present stratified epishelf lake replaced by a marine embayment. It is suggested that this change would leave a clear signature in the lake sediment record, notably the deposition of an exclusively marine biological assemblage, increased ice rafted debris and δ¹³C_org values that are indicative of marine derived organic matter. These authors contributed equally to this work     

南极潮汐测量及区域潮汐对冰架表面流速影响的研究进展综述

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。     

南极冰盖接地线研究综述

接地线是内陆固定冰盖和漂浮冰架的分界线,其位置的准确界定直接影响到南极冰盖物质平衡的计算。随着技术的发展,接地线的提取手段已经逐步从小范围的实地无线电回波测厚和GPS探测,发展到大范围的遥感观测。遥感观测主要包括4种技术手段,即流体静力学平衡、坡度分析、重复轨道分析以及差分干涉测量。以遥感观测为基础,国际上已发布5种全南极接地线产品,包括MOA、ASAID、ICESat、MEaSUREs以及Synthesized接地线产品。随着卫星数据源的丰富,改进接地线提取方法并高精度提取接地线,扩大接地线研究的时间尺度并对全南极进行长时序的接地线动态变化监测,结合冰架底部消融、冰底地形和海洋温度等参数,深入分析其变化原因和机制以及接地线变化与气候变化相互关系的建模等,将会成为南极接地线研究的新热点。     

Physical oceanography studies in the Weddell Sea during the Norwegian Antarctic Research Expedition 1978/79

Hydrographic and current measurements obtained during the Norwegian Antarctic Research Expedition 1978/79 to the southern Weddell Sea are presented. Cold, dense Ice Shelf Water circulating under the floating ice shelves is observed to leave the shelf as a concentrated bottom flow. From moored current metres this discharge is estimated at 0.7 10⁶ m³/s at -2.0°C (one year average) and with no appreciable seasonal variation. This contribution to the Weddell Sea Bottom Water is clearly identified through extreme temperature gradients at our deepest stations (below 2500 m). The core of Weddell Deep Water shows a considerable (T ∼ 0.5°C) warming up since 1977, presumably due to the lack of polynya activity in the intervening period. Measurements in the coastal current at the ice shelf (70°S, 2°W) show step structures which are probably due to cooling and melting at the vertical ice barrier. Slight supercooling due to circulation under the ice shelf is also seen. The net effect of the ice shelf boundary seems to be a deep reaching cooling and freshening of the coastal current providing the low salinity, freezing point Eastern Shelf Water. This process is considered a preconditioning which enhances production of the saline Western Shelf Water which in turn is transformed to Ice Shelf Water.     

基于多源遥感数据的中山站附近地区冰架和冰川变化监测

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。     

Reconstruction of the Ross Ice Drainage System, Antarctica, at the Last Glacial Maximum

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.     

近30年中国极地气象科学研究进展

南极和北极是地球上的气候敏感地区,也是研究全球变化的关键区域.中国的南极和北极实地科学考察研究,分别始于20世纪80年代和90年代.作为国家行为,到2010年底,已经组织了27次南极考察、4次北极北冰洋考察和7次北极陆地考察;在南北极建立了4个科学考察站、5个(中澳/中美)合作自动气象站;初步形成了以有人考察站、无人自...     

南极冰盖表面冰流速研究综述

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。