喜马拉雅地区纳木那尼的化学离子特征

A 6-m ice core was recovered in 2004 from the Naimona＇Nyi Glacier, the middle Himalayas. Empirical orthogonal function （EOF） analysis on the major ion reveals that EOF1 represents the variations of majority of ions which may be originated from crustal aerosols. Comparing the calcium concentrations from the Naimona＇Nyi with these from Dasuopu, East Rongbuk and Guliya ice cores, it is observed that calcium, a good indicator of the input of crustal aerosol in snow, concentrates mostly in the Guliya ice core located on the northern Tibetan Plateau, and gradually decreases from west to east in the Himalayas.     

The δ18O in the Guliya shallow ice core during the prevailing summer monsoons and sea-air interactions

The correlations of the δ18Omax in the shallow ice core from the Guliya ice cap on the Tibetan Plateau with the global sea surface temperatures (SST) and height at the 500 hPa over the Northern Hemisphere were analyzed. The correlated regions on oceans that have a significant influence on the δ18Omax in the Guliya ice core are all located in ocean currents, or convergent regions of currents. They are the eastern Equatorial Pacific, the Northern Pacific Current, the Hot Pool in the eastern Indian Ocean, the Mozambique Current, the Northern Atlantic Current, the Canary Current and the Atlantic Equatorial Current. The δ18Omax in the Guliya ice core has negative correlations with the SST located in the lower latitudes, and positive correlations with the SST in the middle latitudes. The correlated areas at the 500 hPa that have a great impact on the δ18Omax are located in the subtropical highs over the mid-low-latitude oceans and the long-wave trough area over Balkhash Lake, where there are marked negative correlations between the heights in those areas and the δ18Omax. The influencing mechanism is displayed by the diversity of the vapor origins transported to the Guliya region. The strengths of the European ridge and the ridge over Baikal Lake have notable positive correlations with the δ18Omax. The two systems indirectly influence the vapor transportation towards the Guliya region by the adjustment of long-wave trough and ridge.     

The in the Guliya shallow ice core during the prevailing summer monsoons and sea-air interactions

The correlations of the δ18Omax in the shallow ice core from the Guliya ice cap on the Tibetan Plateau with the global sea surface temperatures (SST) and height at the 500 hPa over the Northern Hemisphere were analyzed. The correlated regions on oceans that have a significant influence on the δ18Omax in the Guliya ice core are all located in ocean currents, or convergent regions of currents. They are the eastern Equatorial Pacific, the Northern Pacific Current, the Hot Pool in the eastern Indian Ocean, the Mozambique Current, the Northern Atlantic Current, the Canary Current and the Atlantic Equatorial Current. The δ18Omax in the Guliya ice core has negative correlations with the SST located in the lower latitudes, and positive correlations with the SST in the middle latitudes. The correlated areas at the 500 hPa that have a great impact on the δ8Omax are located in the subtropical highs over the mid-low-latitude oceans and the long-wave trough area over Balkhash Lake, where there are marked negative correlations between the heights in those areas and the δ18Omax. The influencing mechanism is displayed by the diversity of the vapor origins transported to the Guliya region. The strengths of the European ridge and the ridge over Baikal Lake have notable positive correlations with the 8180max. The two systems indirectly influence the vapor transportation towards the Guliya region by the adjustment of long-wave trough and ridge.     

The δ~(18)O in the Guliya shallow ice core during the prevailing summer monsoons and sea-air interactions

1 Introduction The Tibetan Plateau is gigantic in extent and has the highest elevation and the most complex topography in the world. Its existence is of important significance for the formation of atmospheric circulation, weather and climate in China, much of Asia and even of the globe. Therefore, great attention is given to it. The analyses show that the influencing range of the Tibetan Plateau is the widest during the summer[1]. The powerful updrafts from the plateau warm low flow towar…     

The δ18O in the Guliya shallow ice core during the prevailing summer monsoons and sea-air interactions

The correlations of the δ¹⁸O_max in the shallow ice core from the Guliya ice cap on the Tibetan Plateau with the global sea surface temperatures (SST) and height at the 500 hPa over the Northern Hemisphere were analyzed. The correlated regions on oceans that have a significant influence on the δ¹⁸O_max in the Guliya ice core are all located in ocean currents, or convergent regions of currents. They are the eastern Equatorial Pacific, the Northern Pacific Current, the Hot Pool in the eastern Indian Ocean, the Mozambique Current, the Northern Atlantic Current, the Canary Current and the Atlantic Equatorial Current. The δ¹⁸O_max in the Guliya ice core has negative correlations with the SST located in the lower latitudes, and positive correlations with the SST in the middle latitudes. The correlated areas at the 500 hPa that have a great impact on the δ¹⁸O_max are located in the subtropical highs over the mid-low-latitude oceans and the long-wave trough area over Balkhash Lake, where there are marked negative correlations between the heights in those areas and the δ¹⁸O_max. The influencing mechanism is displayed by the diversity of the vapor origins transported to the Guliya region. The strengths of the European ridge and the ridge over Baikal Lake have notable positive correlations with the δ¹⁸O_max. The two systems indirectly influence the vapor transportation towards the Guliya region by the adjustment of long-wave trough and ridge.     

珠穆朗玛峰北坡东绒布冰川成冰作用的新认识

冰川成冰作用的研究对于选择冰芯钻取点具有重要的科学意义。前人对珠穆朗玛峰北坡冰川成冰作用的研究,由于缺少高海拔区域的实测资料而具有一定的局限性。文章通过1998年东绒布冰川垭口处(6 500 m a. s. l.)11 m冰芯和海拔6 450 m处20 m冰芯剖面的成冰作用过程研究,认识到由于水、热条件的逐年波动,冰川成冰作用也处于变化之中。珠穆朗玛峰北坡东绒布冰川高海拔区域,在一定的水、热条件下(如气温较低和降水量较大等),再冻结-重结晶作用依然占主导地位,该成冰作用至少在垭口部位是有分布的。而一般在气温较高或降水量较少等条件下,冰川的成冰作用则以冷渗浸-重结晶作用为主。     

近2000年古里雅冰芯净积累量与南疆盆地南沿的干湿变化

利用1951-1991年古里雅冰芯净积累量、1951-2000年南疆盆地南沿的降水资料和1958-2000年NCEP/NCAR再分析的大气环流资料,讨论了它们之间的相互关系,并对其机理进行了初步分析,在此基础上建立了南疆盆地南沿近2000年高分辨率的干湿变化序列。     

近2000年都兰树轮10年尺度的气候变化及其与中国其它地区温度代用资料的比较

据高分辨率的青海都兰树轮年表 ,将过去 2 0 0 0年的气候变化划分为 2 30’S以前的高温期 ,2 40’S～ 80 0’S冷暖波动强烈的低温期 ,810’S～ 10 70’S显著高温期 ,即中世纪暖期 ,10 80’S～ 1880’S的低温期 ,其中包括 142 0’S～1870’S的小冰期 ,以及 1890’S后的升温期。统计发现 11次极端高温或低温事件 ,以及几次大的突变事件全部出现于中世纪之前 ,指示 15 0’S～ 110 0’S期间气候运行的高度不稳定性。和中国东部、古里雅冰芯和青藏高原南部温度代用资料比较后发现 ,公元初至 3世纪前期的东汉暖期 ,3世纪后期至 7世纪初的魏晋南北朝冷期 (期间约380’S～ 46 0’S暖 ) ,中世纪暖期以及小冰期等几次重大的气候事件在中国东部、都兰和青藏高原南部序列中均存在。古里雅冰芯仅记录了前两次重要事件 ,中世纪暖期以及小冰期在该序列中表现微弱。 2 0世纪的升温在古里雅冰芯最显著 ,都兰、中国东部次之 ,而高原南部似乎不明显。     

Statistical EOF analysis of spatiotemporal glacier mass-balance variability: a case study of Mittivakkat Gletscher,SE Greenland

An Empirical Orthogonal Function (EOF) variance analysis was performed to map in detail the spatiotemporal variability in individual stake mass-balances (ba) on Mittivakkat Gletscher (MG) – in a region where at present five out of ~20.000 glaciers have mass-balance observations. The EOF analysis suggested that observed ba was summarized by two modes: EOF1 and EOF2 represented 80% (significant) and 6% (insignificant) of the explained variance, respectively. EOF1 captured a decline in ba that was uniformly distributed in space at all stakes. The decline was correlated with albedo observations and air temperature observations from nearby stations. EOF2, however, described variations in ba that were heterogeneously distributed among stakes and associated with local slope and aspect. Low elevation stakes (~<400 m a.s.l.) showed relatively negative (out of phase) correlation and higher elevated stakes relatively positive (in phase) eigenvector correlation values with EOF2. Such relatively negative and positive eigenvector correlation values were present where the constituted of exposed glacier ice or snow cover, respectively. The results from this study show how EOF analyses can provide information on spatiotemporal patterns of glacier mass-balance. Understanding such detailed variabilities in mass-balance on a Greenlandic glacier is of interest because a fifth of the Arctic contribution from glaciers and ice caps to sea-level rise originates from Greenland.     

青藏高原冰芯重建古气候研究进展分析

冰芯是重建古气候重要的信息载体,因具有分辨率高、保真性强、信息量大、时间尺度长等优点而成为研究热点。中国自1986 年在祁连山敦德获取第一支冰芯起,相继在青藏高原地区钻取了古里雅、马兰、达索普、普若岗日、东绒布等冰芯。本文重点回顾和总结了利用上述冰芯重建古气候的研究成果,分别论述了冰芯作为信息载体反映古气候的主要指标,包括氧同位素与温度、冰芯积累量与降水、大气气溶胶与古环境、微量元素与古环境、冰芯包裹体与古环境,以及冰芯内微生物与古环境的关系等。青藏高原地区冰芯对过去一些极端气候事件、中世纪暖期、小冰期、冰期—间冰期旋回、厄尔尼诺事件、太阳活动规律,以及工业革命以来的全球气候变暖均有不同程度的响应,但纬度差异导致青藏高原地区的响应机制有别于南北极地区;并进一步对比说明了受不同季风系统影响的冰芯在重建古气候上的异同。最后,基于当前研究状况,就加强多学科交叉与创新、新技术应用与代用指标开发、冰芯记录影响因素评估及量化模型构建等未来需要深入的研究方向进行了展望。     

萨拉乌苏河流域米浪沟湾剖面主元素记录的末次间冰阶气候波动

 位于鄂尔多斯高原萨拉乌苏河米浪沟湾剖面是重建毛乌素沙地晚更新世以来古气候的理想地点。其末次间冰阶(MIS3)层序含4种沉积相,划分为19个沉积单元,构成9.5个风成的砂丘砂与河流相、湖相和古土壤交替的沉积旋回。主元素分析结果显示,该剖面MIS3层序中河流相、湖相和古土壤的Al2O3、TOFE、CaO、MgO、K2O、Na2O、TiO2含量明显高于古风成砂, 而SiO2则相反, 构成与沉积旋回相应的9.5个元素波动旋回。这些元素旋回指示了该地末次间冰阶至少经历了10次温湿(W事件)和9次冷干(C事件)气候波动,且可划分为MIS3e(58.90~49.50 ka BP)、MIS3d(49.50~40.70 ka BP)、MIS3c(40.70~36.90 ka BP)、MIS3b(36.90~27.00 ka BP)和MIS3a(27.00~22.30 ka BP)等5个亚段。其中, 19次冷/暖波动可与格陵兰GRIP冰芯δ18O冰段/间冰段大致对应, 5个亚段与我国古里雅冰芯和V23-81冷性浮游有孔虫数代表的北大西洋地区气候也具有较好的可比性。     

Definition of Arctic and Antarctic Sea Ice Variation Index

It is well known that varying of the sea ice not only in the Antarctic but also in the Arctic has an active influence on the globe atmosphere and ocean. In order to understand the sea ice variation in detail, for the first time, an objective index of the Arctic and Antarctic sea ice variation is defined by projecting the monthly sea ice concentration anomalies poleward of 20°N or 20°S onto the EOF (empirical orthogonal function)-1 spatial pattern. Comparing with some work in former studies of polar sea ice, the index has the potential for clarifying the variability of sea ice in northern and southern high latitudes.     

南疆尼雅地区4000a来的地化元素分布特征与古气候环境演化的初步研究

通过应用因子分析法对尼雅剖面中的多种地化元素和氧化物的分析,在R、Q型因子分析的基础上,提取出古气候信息。初步的研究表明:近4000a来,尼雅地区气候环境仍以干旱化为主,但此期间出现过多次不同程度的干湿变化,大致可分为5个气候期:4.0~3.0kaB P.相对暖干期;3.0~2.2kaB.P.相对冷湿期;2.2~1.6kaB.P.相对暖干期;1.6~1.0kaB.P.相对冷湿期;1.0kaB.P.左右之后的相对暖干期。     

近800年来内蒙古岱海地区古气温的定量重建

根据对现代湖水、现生介形类壳体以及湖泊沉积岩芯中同一种属介形类壳体的Sr/Ca分析,利用现代湖水Sr/Ca与湖水盐度的关系,确定了不同沉积时期湖水盐度;其次,在室内模拟实验,建立了湖水盐度与湖水氧同位素的函数关系;结合²¹⁰Pb测定沉积速率和¹⁴C测年资料,利用沉积剖面的自生碳酸盐氧同位素及由湖水盐度推算的湖水氧同位素组成,定量恢复了不同时期的湖水温度,进而根据碳酸盐结晶时水温与年均气温关系推测了古气温。结果表明:在近800年内蒙古岱海地区的气温变化序列中,中世纪暖期、现代小冰期以及近百年增温均有明显表现。研究时段内,岱海地区中世纪暖期比当代30年的年均气温高1℃以上;在公元1240年左右突然降温过程表现特别突出,在其后约60年的时段内气温下降1.8℃;小冰期最大降温幅度2℃以上,大于华北其它地区。不同于我国西部古里雅冰芯的记录,岱海地区近百年增温程度仍没有达到中世纪暖期水平,预示气候变暖对我国西部地区的影响将大于东部。     

Crystals and fabrics analysis of an Arctic thermal growth multi-year ice sample

One of sea ice core samples was taken from Arctic by the First Chinese National Arctic Research Expedition Team in 1999. 20 vertical and 2 horizontal ice sections were cut out of the ice core sample 2.22 m in length, which covered the ice sheet from surface to bottom except losses for during sampling and section cutting. From the observation and analysis of the fabrics and crystals along the depth of the ice core sample, followings were found. Whole ice sheet consists of columnar, refrozen clastic pieces, granular, columnar, refrozen clastic pieces, granular, columnar and refrozen clastic pieces. This indicates that the ice core sample was 3-year old, and the ice sheet surface thawed and the melt water flowed into ice sheet during summer. Hence, the annual energy balance in Arctic can be determined by the ice sheet surface thawing in summer, and bottom growth in winter. The thickness of the ice sheet is kept constantly at a certain position based on the corresponding climate and ocean conditions; A new     

17111911年昆明雨季降水的分级重建与初步研究

利用清代档案和其他文献资料,重建了1711¹911年间昆明雨季降水的分级序列。在重建中采取了纠偏措施,有效地解决了资料存在的系统偏差问题。对重建序列的分析表明,昆明降水存在较大的波动,可以分为4个大的时段。总的来说,18世纪的雨季降水略少于19世纪。和喜马拉雅山区达索普冰芯恢复的印度季风降水序列的比较表明,19世纪70年代是两个序列中降水量最多的10年,且19世纪后半期同是两个序列波动较大的时期。但也有不一致的地方,说明两地降水机制有所差别。同时太阳活动的世纪周期对昆明的雨季降水有影响。对中间分辨率资料的开拓利用,有助于拓展高分辨率历史气候序列重建的范围。     

1979-2012年夏季黄土高原空中云水资源时空分布

利用欧洲数值预报中心(ECMWF)发布的新一代全球全分辨率ERA-Interim再分析数据,采用经验正交函数(EOF)、小波分析、回归分析等方法,分析1979-2012年夏季黄土高原空中云水资源分布特征。结果表明:(1)夏季黄土高原空中云水资源远大于该地区实际年降水量,具有较大空中云水资源开发利用潜势;(2)空间上云水资源表现为两种模态--西北部、东南部反位相振荡(EOF1)以及中部云水资源偏多西北、东南两端偏少(EOF2),且具有显著年际变化周期;(3)黄土高原的空中云水资源主要来自东海,当水汽输送反气旋环流中心偏南(北)时,影响EOF1(EOF2)空间模态;(4)云水、云冰量峰值分别出现在700 hPa、400 hPa左右,当700 hPa存在水汽辐合及上升运动时有利于黄土高原空中云水资源开发。     

Analysis of gravity fields in the northwestern Himalayas and Kohistan region using deep seismic sounding data

A Bouguer gravity anomaly map of the NW Himalayas and parts of the Kohistan/Hindukush region has been prepared using all available gravity data. Analysis of the gravity field has been carried out along a profile extending from Gujranwala (located near the edge of the Indian shield) to the Haramosh massif in a NNE–SSW direction. The gravity profile is located close to the DSS profile shot under the USSR–India scientific collaborative programme. Velocity information available along different parts of the profile has been used to infer values of crustal and upper mantle density.
The observed gravity field (Bouguer) has been interpreted in terms of Moho depth and density contrast between the crust and the mantle. The Moho depth is interpreted as increasing from nearly 35 km near the edge of the Indian shield to 75 km (below sea-level) underneath the Haramosh massif. A similar model is applicable to a profile passing to the west of Nanga Parbat massif, from Gujranwala to Ghizar, through the Kohistan region. However, along this profile high-density lower-crustal rocks appear to have been emplaced in the upper part along the main mantle thrust. The nature of isostatic compensation prevailing underneath the Himalayas has been discussed, as has the theory of lithospheric flexure proposed by Karner & Watts and Lyon-Caen & Molnar. It is felt that although these ideas explain the broad features of the Moho configuration as observed in the NW Himalayas, there are significant departures. The role of tectonic forces in shaping the Moho and causing changes in the density of the crust cannot be denied.     

Fabric and crystal characteristics of Bohai and Arctic sea ice

The fabrics and crystals of Bohai one year ice show that the noncontinuous ice growth rate enables the level ice layers with different amount of air bubbles to be formed in lower part of an ice sheet which was clearly seen from CT technology; typical grain ice and columnar ice occur in the grey ice which grows in stable water; thaw refrozen ice and rafted ice have their specific crystal characters. On the Arctic sea ice, the ice core located at 72°24.037′N, 153°33.994′W and 2.2 m in length was a 3 year ice floe and a new sort of crystal was found, which is defined as refrozen clastic pieces. The crystal profile of the ice core 4.86 m in length located at 74°58.614′N, 160°31.830′W shows the evidence that ice ridge changed into hummock.     

1990-2015年喜马拉雅山冰川变化的遥感监测及动因分析

采用Landsat TM/ETM+/OLI影像数据,结合比值阈值法与目视解译提取冰川边界,分析了喜马拉雅山冰川在1990-2015年的进退变化。结果表明：近25 a来喜马拉雅山冰川整体呈退缩趋势,冰川面积由23 229.27 km2减少至20 676.17 km2,共减少2 553.10 km2,退缩率为10.99%,研究时段喜马拉雅山冰川加速退缩,尤其是近5 a来,加速退缩的趋势尤为显著。研究区冰川主要分布在海拔4 800~6 200 m范围内,且随着海拔升高冰川分布面积呈先增加后减小趋势,综合分析喜马拉雅山山体海拔特征可知,5 200~5 600 m很可能是研究区的“第二大降水带”。依据山岳冰川分布特征,我们将研究区冰川分为山谷冰川、冰斗冰川、冰斗-山谷冰川、悬冰川和平顶冰川,其中悬冰川的数量最多,山谷冰川的分布面积和平均规模最大。结合研究区周边气象格点数据,同时以12a为滞后期发现,近25a来喜马拉雅山冰川持续退缩很可能是气温升高和降水减少共同作用的结果,且未来十几年内冰川仍可能处于持续退缩的状态。