The climatic and environmental features on both sides of the Lambert Glacier Basin

During the 1992-1993 joint Australian-Chinese over-snow traverse of thewestern Lambert Glacier Basin (LGB), two firn cores were drilled respectively at MGA and LGB16.During the 1996-1997 and 1997-1998 austral summers, two firn cores were drilled respectively atDT001 and DT085 on the eastern LGB. Based on the measurements made during the expeditions, theclimatic and environmental features on both sides of the LGB have been studied. Results show thatduring the past 50 years, the trends of both air temperature and accumulation rate show a slightincrease on the east side of the LGB, in contrast to the west side of the LGB. The spatial trends ofthe accumulation rate measured by accumulation canes at 2 km intervals along the nearly 500 km ofthe traverse lines on both sides of the LGB are different. Moreover, correlations of δ^(18)O vsT_(10) along the two sides of the LGB are also different. In addition, the variations of sea saltion concentrations show different trends in the past 50 years. All the evidence shows that theLambert Glacier is a dividing region for the different climatic regimes over the East Antarctic icesheet, which may be due to different moisture resources resulting from special local circumfluencesuch as cyclone activities, local terrain influences.

A precise monitoring of snow surface height in the region of Lambert Glacier basin-Amery Ice Shelf,East Antarctica

The net surface snow accumulation on the Antarctic ice sheet is determined by a combination of precipitation, sublimation and wind redistribution. We present a one-year record of hourly snow-height measurements at LGB69 (70°50'S, 77°04'E, 1850 m a.s.l.). east side of Lambert Glacier basin (LGB), and 4 year record at G3 (70°53'S, 69°52'E, 84 m a.s.l.), Amery Ice Shelf (AIS). The measurements were made with ultrasonic sensors mounted on automatic weather stations installed at two sites. The snow accumulation at LGB69 is approximately 70 cm. Throughout the winter, between April and September, there was little change in surface snow height (SSH) at the two sites. The negative SSH change is due to densification at LGB69, and is due to both ablation and densification at G3. The strongest accumulation at two sites occurred during the period between October and March (accounting for 101.6% at LGB69), with four episodic increasing events occurring during 2002 for LGB69, and eight events during 1999-2002 for G3 (2 to 3 events per year). At LGB69, these episodic events coincided with obvious humidity 'pulses' and decreases of incoming solar radiation as recorded by the AWS. Observations of the total cloud amount at Davis station, 160 km NNE of LGB69, showed good correlation with major accumulation events recorded at LGB69. There was an obvious anti-correlation between the lowest cloud height at Davis and the daily accumulation rate at LGB69. Although there was no correlation over the total year between wind speed and accumulation at LGB69, large individual accumulation events are associated with episodes of strong wind (>7 m/s), we estimate drift snow may contribute to total SSH up to 35%. Strong accumulation events at LGB69 are associated with major storms in the region and inland transport of moist air masses from the coast.

Mass balance of the Lambert Glacier basin,East Antarctica

Since it is the largest glacier system in Antarctica, the Lambert Glacier basin plays an important role in the mass balance of the overall Antarctic ice sheet. The observed data and shallow core studies from the inland traverse investigations in recent years show that there are noticeable differences in the distribution and variability of the snow accumulation rate between east and west sides. On the east side, the accumulation is higher on the average and has increased in the past decades, while on the west side it is contrary. The ice movement measurement and the ice flux calculation indicate that the ice velocity and the flux are larger in east than in west, meaning that the major part of mass supply for the glacier is from the east side. The mass budget estimate with the latest data gives that the integrated accumulation over the upstream area of the investigation traverse route is larger than the outflow ice flux by 13%, suggesting that the glacier basin is in a positive mass balance state and the ice thickness will increase if the present climate is keeping.

Lambert冰川流域东西两侧气候环境变化

1992～1993年,中国科学家参加了澳大利亚南极考察队对Lambert冰川流域西侧的考察,1996起,中国南极考察队对Lambert流域东侧进行了多次考察.本文基于以上考察的研究成果,对Lambert冰川流域东西两侧气候环境变化特征进行了对比研究.结果表明:Lambert冰川两侧无论是降水还是温度,在几十年时间尺度上其变化趋势都存在着明显差异,Lambert冰川东西两侧从海岸向内陆近500 km断面上表面积累速率的分布截然不同,同时,Lambert冰川东西两侧的δ18O随温度的变化率(又简称δ-温度梯度)差别也很大,另外,反映水汽输送强度的海盐离子浓度近50年来的变化趋势相反.以上证据表明,Lambert冰川谷地可能是东南极洲一条重要的气候界线,其原因可能是特殊的局地环流(顺时针的气旋活动)导致不同的水汽来源,再加上局部地形的影响所致.

东南极洲Lambert冰川流域西部地区的雪层剖面和积累速率变化特征

近几年在Ｌａｍｂｅｒｔ冰川流域西部地区进行的大量雪芯、雪坑剖面观测表明，雪层的可见层位特征在积累速率较高时保存完好。但由于强烈下降风和微地形的影响，年积累量在短距离内变化较大，一个地点某一年份的积累量须由几个雪层剖面对比才能确定；若用花杆测量只能经几年观测获得其平均值。在积累量较高地点将雪层剖面、δ￣（１８）Ｏ和固体电导率剖面结合起来确定的积累速率序列由早期考察结果得以验证。与其它地区（如ＷｉｌｋｅｓＬａｎｄ和Ｍｉｚｕｈｏ高原）相比，该地区最显著的特点是靠近海岸地带的积累速率很低，这意味着近海水汽和低气流对本区降水量的影响很小。近５０年来积累速率的总趋势是减小，这与报道较多的其它地区近几十年来呈增加趋势明显不同。

东南极洲Lambert冰川流域半个多世纪以来气候变化特征

通过对 1 996/ 1 997年中国首次南极内陆冰盖考察获得的东南极洲 Lambert冰川流域东侧50 m雪芯 ,顶部 1 3 m的δ1 8O资料的分析和积累率的恢复 ,首次揭示了 Lambert冰川流域东侧半个多世纪以来的气候变化特征 ,即半个多世纪以来气候变化的总趋势为气温升高、降水增加 .而Lambert冰川流域西侧雪芯资料表明 ,本地区半个多世纪以来气温变化趋势不明显 ,降水明显减少 ,说明整个 Lambert冰川流域 2 0世纪 40年代以来气候变化有明显的区域差异性 .同时研究了Lambert冰川流域东西两侧稳定同位素比率和温度的关系 .

东南极Lambert冰川—Amery冰架系统平衡通量分布的计算

通过对Lambert冰川盆地 (LGB)考察路线上约 170 0km长的LGB剖面和距冰架末端约 5 0km、长 15 0km的A剖面 ,分别利用GPS冰流速值及雷达测厚值进行冰通量的计算得出 :每年流过LGB剖面的冰通量为 4 3 95Gt·a-1,而通过A剖面的冰通量仅为 2 6 4 2Gt·a-1,Amery冰架底部净融化量为 7 8Gt·a-1.整个Lambert冰川—Amery冰架系统 (LAS)地区的表面净物质平衡总量约为 90Gt·a-1;LGB地区的表面净物质平衡总量为 4 6Gt·a-1.通过分析得出 ,整个LAS地区及LGB地区均处于物质正平衡状态 ,而LAS流域的上游区域S’则处于物质负平衡状态 .

东南极Lambert冰川流域路线考察

Ｌａｍｂｅｒｔ冰川是Ａｍｅｒｙ冰架的补给源，为东南极冰盖最大的一支冰流。近几年对该冰流源区的路线考察表明，该地区积累速率相当低，大部分观测点低于１５０ｋｇ／（ｍ￣２·ａ）。考察区域表面年平均温度为－４５－３０℃。表面２ｍ雪层的平均密度在４００ｋｇ／ｍ￣３左右变化。在１８３０－２７００ｍ海拔范围内的许多地点曾观测到深霜发育。表面运动速度基本上在２０ｍ／ａ以内。在低积累区，强烈的下降风和表面雪丘的发育使降雪重新堆积，导致应用稳定同位素比率剖面划分年层的可靠性下降。

Lambert冰川流域东西两侧大气降水的化学特征

1992-1993年,中国科学家参加了澳大利亚南极考察队对Lambert冰川流域两侧的考察,1996年起中国南极考察队对Lambert流域东侧进行了多次考察.本文基于以上学察的研究成果,对Lambert冰川流域东西两侧大气降水的化学特征进行了对比研究.结果表明:Lambert冰川流域东西两侧在1932-1992年,各种离子均有较大的年际变化和年代际变化,东侧过去60年来海盐离子浓度呈现升高趋势,而两侧则呈现下降趋势,可能反映了东西两侧水汽输送能力存在明显的差异.同时,对东西两侧雪冰中的离子浓度进行了EOF分析,表明Lambert冰川流域东西两侧降水中的化学成分主要来源于海盐传输、中低纬度远距离传输和高纬地区局地来源.

冰芯记录揭示Lambert冰川谷地是东南极洲重要的气候分界线

横穿Lambert冰川流域和沿该流域东侧中山站—DomeA断面考察现场观测结果显示 ,该流域东、西两侧降水量的空间分布明显不同 ,东侧符合从海岸向内陆不断减小的普遍规律 ,西侧最大降水量在距海岸 30 0～ 5 0 0km区域 ,东侧平均积累速率较西侧高。冰芯研究得出 ,过去 5 0年来温度和降水变化呈现相反趋势 :东侧温度和降水都为升高 ;西侧降水明显降低 ,温度虽有降低迹象 ,但变化不明显。海岸带考察站温度记录以及南极地区水汽传输模拟研究也得出谷地两侧的温度和降水有很大差异。在 10 0～ 2 0 0年时间尺度上 ,其差异虽有所减弱 ,但Lambert冰川流域仍然比较独特。因此 。

Lambert冰川流域物质平衡和南极冰盖变化

对Lambert冰川流域的现场考察资料和浅冰芯研究结果显示 ,该流域东侧和西侧积累速率分布和过去几十年的变化具有明显差异 :东侧平均积累速率较西侧高 ;近 5 0年东侧处于增加状态 ,西侧则为明显减小。冰量平衡计算表明 ,该冰川流域目前处于物质正平衡状态 ,因而冰盖将趋于增厚。据现有资料估计分析 ,整个南极冰盖处于微弱负平衡。如果南极地区气候变暖 ,物质平衡将向正平衡方向发展 ,因而不会引起海平面上升。但是西南极冰盖的不稳定性可能随气候持续变暖而增强 ,成为引起海平面上升的最重要潜在因素。

基于多源遥感影像的南极Lambert流域冰川运动速度提取与精度验证

冰川运动速度是计算极地物质平衡和对冰盖和冰架数值模拟的重要参数.针对传统冰川运动速度提取算法的不足和局限,基于差分干涉技术(DInSAR)和多孔径干涉技术(MAI)开展二维冰川运动速度的提取研究.将该算法应用于南极Lambert流域冰川运动速度的提取,得到了研究区域高精度的二维冰川运动速度场,将采用偏移量跟踪算法提取的冰川运动速度和本文提取的冰川运动速度进行了对比分析和精度评价;结合研究区域已有历史观测数据,分析全球气候变化背景下Lambert流域冰川的动态变化.研究结果表明,基于DInSAR和MAI的冰川运动速度提取算法优于偏移量跟踪算法;近20年的冰川运动速度时间序列数据显示Lambert流域的冰川运动速度基本处于稳定状态.

东南极Lambert冰川流域表面雪层中稳定同位素分布及近几十年来的气候变化(英)

The Lambert Glacier basin is one of particular regions in East Antarctica, because of its distinctive topography. During the repeat inland traverses carried out in recent several years, surface 2 m snow samples and shallow (10～27 m deep) cores were collected at several ten stations and at near ten stations, respectively. The stable isotopic ratios of these samples and cores were measured in order to investigate the relation of isotopes with temperature and to study the climatic change in recent decades over this area. The correlation between isotopic ratios and mean annual temperature gives that δ-temperature gradient is relatively close to that along a traverse route between Vostok and Mirnyy stations. The inconsistency of δ18O profiles of these cores makes it difficult to distinguish an overall trend of climatic change in past decades. After incorporating the result of snow accumulation variability and temperature record over 30 years at the coast station, it is believed that climate was in a little cooling and drying from 1950s to 1980s and has been in a warming period since then.

冰芯和台站记录的近50 a来东南极冰盖边缘地区气候变化格局

对取自东南极冰盖Lambert冰流东、西两侧共 10支雪芯 ,恢复了过去 5 0a来稳定同位素温度序列和积累率序列 .对比发现 ,位于Lambert冰流东侧 ,即位于Wilks地和PrincessElizabeth地的 5支雪芯 (GC30 ,GD0 3,GD15 ,DT0 0 1和DT0 85 ) ,过去 5 0a来积累率总体为上升趋势 ,δ18O上升速率介于 0 34～ 2 6kg·m-2 ·a-1;稳定同位素显示其气温亦呈整体上升趋势 ,上升速率介于 0‰～ 0 0 2‰·a-1.但对位于Lambert冰流西侧 ,即位于DronningMaud地、Mizuho高原和Kamp地的 5支雪芯 (CoreE ,DML0 5 ,W 2 0 0 ,LGB16和MGA) ,过去 5 0a来积累率总体为下降趋势 ,下降速率介于 - 0 .0 1～- 2 .36kg·m-2 ·a-1;稳定同位素温度变化则十分复杂 :DronningMaud地西侧为上升 ,Mizuho高原和Kamp地为下降或变化不明显 .分布于LGB两侧沿岸气象站记录也印证了上述格局 .这种格局可能是南大洋独特的环流形式—环南极波 (ACW)—在特殊地形 (如大的冰盆 )影响下 ,在南极冰盖边缘的表现形式 .

南极地区数百年来气候变化的冰芯记录对比研究

随着国际横穿南极科学考察计划的实施 ,近年来开展了沿中山站—DomeA考察路线的冰芯研究 ,获得了伊丽莎白公主地 2 5 0a来气候环境变化的高分辨率记录 .通过与Lambert冰川流域西侧有关研究结果的对比 ,揭示了该冰川谷地为东南极洲重要气候分界线的特征 .综合南极地区其它地点冰芯记录和冰盖变化研究结果 ,发现以小冰期为代表的寒冷期在东南极洲较为明显 ,在西南极洲则不明显 ,甚或恰好相反 ,表现为温暖阶段 .就东南极洲来说 ,也存在明显的区域差异 :以Lambert冰川谷地为界 ,东部地区 ,如WilkesLand (LawDome) ,VictoriaLand北部 (HerculesNeve)等地 ,小冰期冷期比较突出 ;西部地区 ,如DronningMaudLand和Mizuho高原 ,情况不是很明确 .Lambert冰川流域是非常特殊的地方 ,虽然小冰期冷期也存在 ,但 185 0年前后的显著高温和近 10 0多年来的降温与南极洲其它地方都不一样 ,而与南极半岛北侧一冰芯所给出的 4 0 0a温度变化记录极为相似 ,我们尚不能解释为何如此遥远的两个地点具有很好的一致性而与其它地方则不一致 .

南极内陆考察沿线GPS高精度定位点测量结果分析

中山站至 Dome- A考察是中国承担的“国际横穿南极科学考察”( ITASE)计划的一部分。考察沿线布设有 GPS高精度定位点 ,通过两期观测数据的计算可知 ,考察沿线的冰川整体上以8- 2 4 m/a的速度向西北方向 (兰伯特冰川盆地方向 )流动 ,而且 ,越接近冰盖边缘 ,运动速度越快 ,最快达到 1 0 0 m/a。同时 ,由于冰川的流动 ,引起了 GPS点垂直方向 0 .2 - 1

基于激光测高卫星的东南极表面高变化分析

利用美国国家冰雪数据中心（NSIDC）最新发布的ICESat（云和地面高度卫星）R633版本的GLA12激光测高数据,使用重复轨最小二乘平面拟合的方法,计算得到东南极兰伯特冰川流域（Lambert）2 003年～2009年的高程变化率.使用高度计重复观测数据确定表面高变化的时候,要考虑地形坡度的影响.假定在沿ICESat重复轨道小段范围内,可以用平面来拟合坡度和高程变化,并依此来计算高程变化.结果表明,Lambert冰川流域2003年～2009年平均高程变化率为（1±0.5） cm·yr-1.与已有研究成果以及交叉点获取的高程变化比较,提出的重复轨平面拟合方法有效可行.

Mass budgets of the Lambert, Mellor and Fisher Glaciers and basal fluxes beneath their flowbands on Amery Ice Shelf

We used in situ measurements and remote-sensing data sets to evaluate the mass budgets of the Lambert, Mellor and Fisher Glaciers and the basal melting and freezing rates beneath their flowbands on the Amery Ice Shelf. Our findings show the Lambert and Mellor Glaciers upstream of the ANARE Lambert Glacier Basin (LGB) traverse may have positive imbalances of 3.9±2.1 Gt a-1 and 2.1±2.4 Gt a-1, respectively, while the Fisher Glacier is approximately in balance. The upstream region as a whole has a positive imbalance of 5.9±4.9 Gt a-1. The three same glaciers downstream of the ANARE LGB traverse line are in negative imbalance, where the whole downstream region has a negative imbalance of -8.5±5.8 Gt a-1. Overall the mass budgets of the Lambert, Mellor, and Fisher Glaciers are close to bal-ance, and the collective three-glacier system is also nearly in balance with a mass budget of -2.6±6.5 Gt a-1. The significant positive imbalances for the interior basin upstream of the ice-movement stations established in the early 1970s (GL line) reported previously are possibly due to an overestimate of the total accumulation and an underestimate of the ice flux through the GL line. The mean melting rate is -23.0±3.5 m ice a-1 near the southern grounding line, which decreases rapidly downstream, and transitions to refreezing at around 300 km from the southern extremity of the Amery Ice Shelf. Freezing rates along the flowbands are around 0.5±0.1 to 1.5±0.2 m ice a-1. The per-centage of ice lost from the interior by basal melting beneath the flowbands is about 80%±5%. The total basal melting and refreezing beneath the three flowbands is 50.3±7.5 Gt ice a-1 and 7.0±1.1 Gt ice a-1, respectively. We find a much larger total basal melting and net melting than the results for the whole Amery Ice Shelf derived from previous modeling and oceanographic measurements.

Sentinel-3波形数据构建东南极兰伯特冰川区域DEM

基于新型雷达高度计Sentienl-3波形数据构建了兰伯特冰川区域的DEM。对比分析了重心偏移算法(OCOG)、线性5-β算法、主波峰峰值算法(NPPR)等几种重跟踪算法对Sentienl-3在冰盖区域的处理效果,并提出了分区域选取最优重跟踪算法的处理方法,提高了测高值精度。采用克里金插值法获得了基于Sentinel-3波形数据的500 m分辨率S3Lam DEM,并利用ICESat-2激光测高数据验证S3Lam DEM的整体高程精度为0.682±2.998 m。与另外两种基于Cryosat-2测高数据建立的南极DEM对比结果表明,S3Lam DEM整体精度有所提升,Sentienl-3数据对高程精度的明显改善位于低坡度的内陆冰盖。结果反映了Sentienl-3高度计数据在南极冰盖测高方面的有效性和优势,这对于未来长期监测南极冰盖高程有重要意义。