云南千湖山第四纪冰川发育特点与环境变化

千湖山(4249 m) 是横断山脉中段保存确切第四纪冰川遗迹的山地,受西南季风影响强烈。对于研究青藏高原边缘山地冰川发育与气候和构造之间的耦合关系具有十分重要的科学意义。在千湖山海拔3500 m以上保存着古冰川侵蚀与堆积地貌,冰川发育依托海拔4000~4200 m的夷平面及其支谷地形。冰川形态类型为小型的冰帽以及由冰帽边缘溢流进入山谷的山谷冰川。应用相对地貌法,光释光(OSL) 年代测试,本文确定千湖山地区的冰进系列:末次冰盛期(LGM,22.2±1.9 ka BP)、末次冰期中期(MIS3b,37.3±3.7 ka BP、45.6±4.3 ka BP45.6±4.3 ka BP)、末次冰期早期(MIS4)。千湖山冰川前进规模是MIS3b 阶段大于末次冰盛期,主要原因是末次冰期中期(MIS3b) 时本区气候相对湿润,而在末次冰盛期(MIS2) 时气候条件比较干燥。在总体相似的气候背景下,与横断山其它存在多期次冰川作用的山地相比,千湖山只发育末次冰期的冰川作用,其差异性说明该地区冰川发育主要受山体构造抬升控制。     

东亚季风影响区末次冰期冰川作用的控制性因素

东亚季风气候控制下的山地与岛屿冰期历史、冰川规模及其分布规律对深入探讨中国第四纪冰川的发生机制以及全球变化具有重要的科学意义。最新的绝对年代结果显示,中国东部及东亚沿海岛屿山地(包括中国台湾岛,日本本州岛、北海道,朝鲜盖马高原,俄罗斯远东山地等)的冰期启动与消亡时间存在显著差异,但均严格控制在末次冰期范围之内,相当于深海氧同位素阶段(MIS)4至2,冰川的发育规模在末次冰期早中期(MIS3/4)大于末次冰盛期(MIS2)。对研究区各山地和岛屿末次冰期冰川发育的基本特点进行比较后,明确了影响东亚季风影响区冰川作用的主要控制性因素有：气候因素、构造因素、纬度因素和海陆位置等,它们控制着末次冰期冰川的发生、分布与期次。在此控制性因素影响下,东亚低海拔山地不会出现比末次冰期更早的冰川作用。     

气候和地貌对晚第四纪冰川发育差异性的影响

中国第四纪冰川作用极大地推动了高亚洲乃至全球冰川形成机制的探讨。青藏高原以及喜马拉雅山地冰川作用的时限和规模研究得到了广泛关注,为西风带与西南季风带对晚第四纪冰川作用差异性问题的解决提供了有利条件。然而,对于中亚西风环流与东亚季风环流影响下的冰川演化差异性关系不甚明确,两大气候系统控制下的山地第四纪冰川的冰进时序、冰期历史和冰川规模显示出不同特点,其差异性主要体现在:西部山地的冰期启动时间早,冰川规模随时间而逐渐缩小,冰川历史较为完整,绝对年代证据显示冰川作用的启动时间是450 ka 左右的中梁赣冰期(MIS12);东部山地的冰期历史较短,仅保留末次冰期(~75 ka)的冰川遗迹,冰川作用的阶段性明显;冰川演化时间与空间的差异性表明,影响冰川发育的因素不仅仅是区域气候,构造因素也起着相当重要的作用。     

亚洲中纬度地区第四纪冰川作用差异性探讨

近年来,随着绝对年代的不断增加,第四纪冰川作用的启动时间以及演化特点日益明确,为探讨中纬度地区的冰川的形成机制提供了重要依据,同时也为研究中国第四纪冰川发育的构造与气候耦合关系奠定了重要基础。亚洲中纬度地区山地第四纪冰川的冰进时序、冰期历史和冰川规模显示出不同特点。总体来说,西部山地的冰川规模随时间逐渐缩小,冰川历史较为完整,冰川规模大于亚洲东部,东部山地的冰期历史较短,冰川作用的阶段性明显;不同地区的最大冰川扩展规模在时间上不一致,尤其是在末次冰期旋回中,MIS3/4阶段的冰川规模大于传统意义上的末次冰盛期(LGM),冰进时序和规模演化指示了不同的大气环流尤其是西风环流和季风环流对冰川发育的重要影响。此外,构造因素深刻影响着不同地区的冰期系列。     

哈巴雪山第四纪冰川发育特点的初步研究

哈巴雪山(5 396 m)位于横断山脉中北段,与玉龙雪山(5 596 m)以金沙江相隔,受西南季风影响强烈。在哈巴雪山3 100 m以上保存第四纪冰川侵蚀与堆积地貌,主要沿哈巴雪山西北脊两侧分布。应用相对地貌法,对比邻近山地尤其是玉龙雪山,将哈巴雪山冰期系列初步划分为:倒数第二次冰期、末次冰期早期和末次冰盛期(LGM)。以哈巴雪山哈巴河谷的冰碛物为研究对象,其末端海拔高度在倒数第二次冰期、末次冰期早期、末次冰盛期分别约为3 100 m、3 500 m、3 900 m。应用TSAM法、MEIM法、CF法计算得出哈巴雪山古雪线高度在倒数第二次冰期、末次冰期早期、末次冰盛期分别为3 675 m、4 000 m、4 200 m。     

阿尔泰山喀纳斯河谷晚第四纪冰川地貌演化过程

阿尔泰山喀纳斯河流域在第四纪期间发生过多次冰川进退,丰富的侵蚀与堆积地貌为区域地貌演化过程分析提供了重要依据,同时,该区的第四纪冰川作用对全球环境变化研究具有重要的科学意义。通过对喀纳斯湖口以下主谷内古冰川地貌的实地考察,测定不同地段多级U型谷底(台地)的海拔高度以及冰川漂砾的上限与分布位置,并对主谷内不同地段不同期次的冰碛物进行电子自旋共振(ESR)测年,研究发生在主谷内的古冰川作用系列、规模及演化过程。结果表明:喀纳斯湖到驼颈湾地区的谷地中主要发生过4次冰川作用,时代分别对应中梁贛冰期(MIS12)、MIS8/10、倒数第二次冰期(MIS6)以及末次冰期。末次冰期冰川作用又可细分为3个阶段,分别对应MIS4、MIS3中期与MIS2;根据三级U型谷的分布特征推断,古冰川作用规模呈现渐次变小的规律,自冰川站至下游接近冰川末端,中梁贛冰期时冰川厚度达50~395 m,覆盖范围包括主谷及两侧的山梁和支谷,延伸的长度和宽度都最大,MIS8/10以及倒二冰期时的厚度分别在102~199 m和88~269 m之间,冰川末端到达驼颈湾附近;鸭泽湖附近坡地上保存完好的多级台地,说明发生在河谷内的古冰川活性大,流动性和连续性较强,具有温冰川的性质;喀纳斯主谷有明显的不对称性,与局部小气候和地形对冰川的发育影响有关。     

中国第四纪冰川作用与深海氧同位素阶段的对比和厘定

随着冰期(阶)与间冰期(阶)旋回的不断细化,第四纪冰期系列与深海氧同位素阶段(MIS)对比之间所反映的问题开始逐步显现。通过中国第四纪冰期与MIS阶段对比,结合分析气候旋回与构造运动对地貌演化的控制作用,研究表明:①冰期(阶)或者间冰期(阶)发生的时段应尽可能对应于MIS的偶数或奇数阶段,有助于MIS框架下新的冰期(阶)的发现;②中更新世以来,中国第四纪冰期-间冰期旋回可能受控于100 ka轨道偏心率变化的气候大背景,昆仑冰期-倒数第二次冰期的冰川规模总体上与全球冰量变化一致。然而,末次冰期早、中期的冰川规模却与MIS所记录的全球冰量变化不尽一致,强烈显示气候与构造环境对冰川作用的影响;③目前在中国第四纪冰期划分方案中,存在着冰期系列由时间和地点双重命名的现象,建议用大理冰期、古乡冰期分别代替末次冰期和倒数第二次冰期。     

四川螺髻山清水沟冰川槽谷演化及其影响因素

螺髻山地处青藏高原东南缘,是确切存在第四纪古冰川遗迹的典型山地之一,该区冰川地貌演化对于研究环境变化具有重要的科学意义。螺髻山东坡清水沟保存两套古冰川槽谷,分别为上槽谷和下槽谷,其中下槽谷保存完整,而上槽谷在3450~3600 m的阴坡部分出现缺失。采用野外地貌调查与模型分析相结合的方法,对冰川槽谷地貌进行分析,结果表明:清水沟槽谷的抛物线模型中,|A|值在1.3101~15.2064 之间变动,B 值变化于0.9695~3.2965 之间,且随着海拔由高到低,都存在着先变小后变大的规律,A、B值同时反映出在海拔3450~3600 m处冰川槽谷的演化不符合常态。分析认为岩性差异和河流溯源侵蚀是影响上槽谷形态的主要原因。对保存在清水沟上下槽谷内的高、低侧碛进行ESR年代测定,结果显示:高侧碛形成于58-84 ka BP左右的末次冰期早期,对应深海氧同位素4 阶段(MIS4);低侧碛形成于13-17 ka BP,属于于全球末次冰盛期晚期的产物。两次冰川作用分别塑造出两套冰川槽谷,即在末次冰期早期冰川作用形成上槽谷,末次冰期晚期形成下槽谷。     

天山木扎尔特河流域的冰川地貌与冰期

木扎尔特河流域位于天山最大现代冰川作用中心托木尔峰的东南坡,在第四纪冰期与问冰期气候旋回中,河谷与山麓带留下了4套形态清晰的冰川沉积.冰碛地形包含着丰富的古环境变化信息,对它们进行研究有助于认识该流域的冰川演化与重建该地区的古环境.应用ESR测年技术.选用石英颗粒中对光照与研磨较敏感的Ge心作为测年信号,对该流域的第三套破城子多列终碛垅及其冰水沉积,第四套克孜布拉克冰碛剥蚀平原上覆河流相砾石沉积以及一出露完整的沉积剖面进行测年.结合地貌地层学原理以及其他古环境研究资料进行综合分析可得出:河谷中第一套3-4列终碛垅形成于小冰期;第二套高大的吐盖别里齐终碛垅为新冰期冰进产物;破城子终碛垅沉积于MIS2-4;克孜布拉克冰碛形成于MIS6.破城子终碛垅地形及测年结果表明末次冰期冰川作用过程中该处至少存在3次大的冰进,可分别对应于MIS4、MIS3b与MIS2.MIS2与MIS3b时冰川为复合山谷冰川.MIS4与MIS6时为山麓冰川.末次冰期冰川作用过程中,古木扎尔特冰川长约92-99 km.克孜布拉克冰期最盛时的古木扎尔特冰川长约120 km.     

元谋盆地第四纪是否有古冰川活动问题探讨

基于Arc GIS10.1软件操作平台,利用分辨率为30 m的DEM高程数据和Google Earth卫星地图,结合野外考察等方法,以元谋盆地为研究对象进行研究,结果表明:元谋盆地"第四纪古冰川地貌"与经典的冰川地貌相去甚远;末次冰盛期(LGM)雪线的高度至少在海拔3 700 m以上;"元谋东山冰期"的AAR值最大为0.34,最小为0.04,远低于正常山地冰川发育值0.6;植物化石和孢粉显示第四纪以来元谋盆地的植被主要以热带、亚热带植被为主,缺乏高海拔耐寒的植物孢粉。这些事实表明,元谋不可能存在第四纪冰川。     

天山阿特奥依纳克河流域冰川沉积序列

阿特奥依纳克河位于我国天山的最西段,最大现代冰川作用中心托木尔峰的南麓。在第四纪冰期与间冰期的气候旋回中,该处留下了形态较为完整的6套冰川沉积。应用ESR测年技术 (辅以OSL测年技术) 对冰碛物及其相应的冰水沉积物进行了定年,测得6套冰碛年龄分别为7.3±0.8ka BP (OSL,冰水沙);12.3±1.2ka BP (OSL) 与15~29ka BP;46~54ka BP;56~65ka BP;155.8±15.6ka BP与234.8±23.5ka BP;453.0±45.3ka BP,测年结果表明它们分别形成于新冰期、海洋同位素阶段(MIS)2、3b、4、6、12。第三套冰碛测年结果表明该处MIS3b冰进规模较大,其规模基本上与末次盛冰期 (MIS2) 的规模相当。此处最老冰碛测年结果与我国中段天山乌鲁木齐河源高望峰冰碛的测年结果 (459.7±46ka BP与477.1ka BP) 遥相呼应,老冰碛的年龄显示我国天山西段与中段至少于MIS12进入了冰冻圈,开始发育冰川。     

Glacial and Fluvial Deposits in the Aragón Valley,Central‐Western Pyrenees: Chronology of the Pyrenean Late Pleistocene Glaciers

The Aragón Valley glacier (Central Western Pyrenees) has been studied since the late nineteenth century and has become one of the best areas in the Pyrenees to study the occurrence of Pleistocene glaciations and the relationships between moraines and fluvial terraces. New morphological studies and absolute ages for moraines and fluvial terraces in the Aragón Valley allow a correlation with other Pyrenean glaciers and provide solid chronologies about the asynchroneity between global last glacial maximum (LGM) and the maximum ice extent (MIE). Six frontal arcs and three lateral morainic ridges were identified in the Villanúa basin terminal glacial complex. The main moraines (M1 and M2) correspond to two glacial stages (oxygen isotopic stages MIS 6 and MIS 4), dated at 171 ± 22 ka and 68 ± 7 ka, respectively. From a topographical point of view, moraine M1 appears to be linked to the 60 m fluvioglacial terrace, dated in a tributary of the Aragón River at 263 ± 21 ka. The difference in age between M1 moraine and the 60 m fluvioglacial terrace suggests that the latter belongs to an earlier glacial stage (MIS 8). Moraine M2 was clearly linked to the fluvioglacial 20 m terrace. Other minor internal moraines were related to the 7–8 m terrace. The dates obtained for the last glacial cycle (20–18 ka) are similar to other chronologies for Mediterranean mountains, and confirm the occurrence of an early MIE in the Central Pyrenees that does not coincide with the global LGM.     

末次冰期东亚冰川规模与冰川进退异时性问题

1 IntroductionIthas been accepted thatthe glacialextentin the early stage w as largerthan thatin the late stagein Eastern A sia during the Last G laciation and w as different from Europe and N orth A m erica(Li, 1992; Cui et al., 2000). M any scholars hav…     

The glacial extent and glacial advance/retreat asynchroncity in East Asia during Last Glaciation

New dates for last glacial cycle in Tibetan bordering mountains and in East Asia show the glacial extent during the early/middle (MIS3-4) stage is larger than that of the late stage (MIS2) in last glacial cycle. It is asynchronous with the Northern Hemisphere ice sheets maximum and changes in oceanic circulation that predominately control global climate. In research areas, three seasonal precipitation patterns control the accumulation and ablation of glaciers. The modes of the westerlies and the East Asian mountains/islands in and along the Pacific Ocean are favorable to glacier advance with mainly winter precipitation accumulation. There was a global temperature-decreasing phase in the middle stage (MIS3b, 54-44 ka BP), when the glacier extent was larger than that in Last Glaciation Maximum due to the low temperature combined with high moisture. It is revealed that the Quaternary glaciers not only evolved with localization, but also maybe with globalization. The latest studies show a fact that the developmental characteristics of glaciers in high mountains or islands along the western Pacific Ocean are not in accord with those inland areas. Therefore, it can be concluded that glacier development exhibits regional differences. The study validates the reasonableness of the asynchronous advance theory, and ascertains that both the synchronous and asynchronous advance/retreat of glaciers existed from 30 ka BP to 10 ka BP. It is not suitable to emphasize the synchronicity between global ice-volume and glacier change.     

Glacial and palaeoenvironmental history of the Cape Chelyuskin area, Arctic Russia

Quaternary glacial stratigraphy and relative sea-level changes reveal at least two glacial expansions over the Chelyuskin Peninsula, bordering the Kara Sea at about 77°N in the Russian Arctic, as indicated from tills interbedded with marine sediments, exposed in stratigraphic superposition, and from raised-beach sequences mapped to altitudes of at least up to ca. 80 m a.s.l. Chronological control is provided by accelerator mass spectrometry ¹⁴C dating, electron-spin resonance and optically stimulated luminescence geochronology. Major glaciations, followed by deglaciation and marine inundation, occurred during marine oxygen isotope stages 6–5e (MIS 6–5e) and stages MIS 5d–5c. These glacial sediments overlie marine sediments of Pliocene age, which are draped by fluvial sediment of a pre-Saalian age, thereby forming palaeovalley/basin fills in the post-Cretaceous topography. Till fabrics and glacial tectonics record expansions of local ice caps exclusively, suggesting wet-based ice cap advance, followed by cold-based regional ice-sheet expansion. Local ice caps over highland sites along the perimeter of the shallow Kara Sea, including the Byrranga Mountains and the Severnaya Zemlya archipelago, appear to have repeatedly fostered initiation of a large Kara Sea ice sheet, with the exception of the Last Glacial Maximum (MIS 2), when Kara Sea ice neither impacted the Chelyuskin Peninsula nor Severnaya Zemlya, and barely touched the northern coastal areas of the Taymyr Peninsula.     

新疆阿尔泰山东段冰碛物光释光测年研究

冰川是塑造地表形态最积极的外营力之一,对冰川地貌的年代学研究是重建古冰川发展史的关键,也是研究气候变化的重要途径。冰碛物是冰川作用的直接产物,代表过去发生的冰川事件,对冰碛物进行准确测年能够为重建古冰川的进退、理解区域古气候变化提供年代学支撑。本文在新疆阿尔泰山东段采集了8个冰碛物样品以进行光释光测年,利用单片再生剂量法对90~125 μm的石英颗粒进行等效剂量的测定。通过等效剂量值频率分布特征及De（t）坪区图分析得出大部分冰碛物的光释光信号晒退不彻底,所以利用一阶动力学公式对持续激发的光释光信号晒退曲线（CW-OSL）进行多组分拟合拆分,得到快速、中速、慢速3种组分,依据分离出的快速组分确定等效剂量值。研究结果显示,距今32 ka以来阿尔泰山东段区域在MIS3阶段、MIS2阶段、8.2 ka左右、全新世大暖期及新冰期等5个时段有冰川发育,冰川发育与气候变化密切相关。     

OSL dating of glacier extent during the Last Glacial and the Kanas Lake basin formation in Kanas River valley, Altai Mountains, China

The Kanas River originates on the southern slope of Youyi Peak, the largest center of modern glaciers in Altai Mountains, China. Three sets of moraines and associated glacial sediments are well preserved near the Kanas Lake outlet, recording a complex history and landscape evolution during the Last Glacial. Dating the moraines allows the temporal and spatial glacier shift and climate during the Last Glacial to be determined, and then constrains when and how the Kanas Lake basin was formed. Dating of the glacial tills was undertaken by utilizing the optically stimulated luminescence (OSL) method. Results date four samples from the three sets of moraines to 28.0, 34.4, 38.1, and 49.9 ka and one sample from outwash sediment to 6.8 ka. The Kanas Lake basin is a downfaulted basin and was eroded by glacier before 28.0 ka, and the glacial moraines blocked the glacier-melt water after the glacier retreat, which made the present-day Kanas Lake eventually form at least before 6.8 ka BP. In Altai Mountains, the glacier advance was more extensive in Marine Isotope Stage (MIS) 3 than MIS 2, probably because the mid-latitude westerlies shifted northward and/or intensified during the MIS 3, resulting in a more positive glacier mass balance. Nevertheless, the Siberian High dominated the Altai Mountains in MIS 2, resulting in a relative decrease in precipitation.     

Mountain-derived versus shelf-based glaciations on the western Taymyr Peninsula, Siberia

The early Russian researchers working in central Siberia seem to have preferred scenarios in which glaciations, in accordance with the classical glaciological concept, originated in the mountains. However, during the last 30 years or so the interest in the glacial history of the region has concentrated on ice sheets spreading from the Kara Sea shelf. There, they could have originated from ice caps formed on areas that, for eustatic reasons, became dry land during global glacial maximum periods, or from grounded ice shelves. Such ice sheets have been shown to repeatedly inundate much of the Taymyr Peninsula from the north-west. However, work on westernmost Taymyr has now also documented glaciations coming from inland. On at least two occasions, with the latest one dated to the Saale glaciation (marine isotope stage 6 [MIS 6]), warm-based, bedrock-sculpturing glaciers originating in the Byrranga Mountains, and in the hills west of the range, expanded westwards, and at least once did such glaciers, after moving 50–60 km or more over the present land areas, cross today's Kara Sea coastline. The last major glaciation affecting south-western Taymyr did, however, come from the Kara Sea shelf. According to optically stimulated luminescence dates, this was during the Early or Middle Weichselian (MIS 5 or 4), and was most probably not later than 70 Kya. South-western Taymyr was not extensively glaciated during the last global glacial maximum ca. 20 Kya, although local cold-based ice caps may have existed.     

我国喜马拉雅山区冰湖扩张特征及其气候意义

分析冰湖扩张特征和扩张方式及其气候意义,有利于认识冰川-冰湖-气候三者的变化关系和冰湖溃决灾害危险性程度。基于大比例尺地形图、DEM、ASTER影像等数据,分析近30年来我国喜马拉雅山区不同海拔高度冰湖变化的特征及冰湖-母冰川的相对位置的变化关系,探讨其气候效应。结果显示：(1) 存在冰湖的面积增大是冰湖面积扩张的主要贡献者,占总面积净增量的67%,新增湖的面积占总面积净增量的33%;(2) 不同高度带冰湖面积多呈扩张态势,净增面积在5000~5300 m出现峰值,指示气候变化的垂直差异性;(3) 在2000s 母冰川-冰湖距离为0 的冰湖,数量占扩张冰湖总数的19%,而其冰湖面积增量却占了总面积增量的60%,为冰湖扩张的主体,反映出冰湖与母冰川关系越紧密,气候效应越强烈,冰湖面积增加越显著。