冰川槽谷横剖面沿程变化及其对冰川动力的反映

冰川槽谷梯级宽深比定义为槽谷横剖面上相同等高线间距离与对应深度的比值.它可以描述槽谷横剖面形态的总体特征,便于不同槽谷横剖面形态的对比.统计分析表明槽谷梯级宽深比随槽谷深度的变化符合幂函数模型.使用这一模型描述冰川槽谷横剖面的总体形态并据此探讨冰川槽谷横剖面形态的沿程变化.主要结论如下:简单槽谷从上源到雪线附近,模型参数显示为槽谷展宽,谷壁变陡,从雪线向下游,槽谷变窄,谷壁变缓;从简单槽谷段向复合槽谷段,槽谷明显展宽,谷壁变陡,从复合槽谷段向单流槽谷段,槽谷变窄,谷壁变缓.     

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。     

中国典型山地温冰川水化学空间分布特征与近期冰川动态

从我国玉龙雪玉典型温水王白水１号冰川不同区段表面融水,新近积雪和冰川初给河水采样分析结果表明,雪线以下降水中的稳定同位素的离子含量比雪线以下为高,低海拔河水比高海拨融水的氧同浓度为低,可能在来源上存在着差异,这种分布特征说明本温冰川区局部大气环流情况高度而不同,有可能存在季气候区所特有的“降水量效应”或“季节性效应”。冰川不同水体内离子浓度变化说明,冰川融水与地壳表面接触时间越久,其中的可融性离了     

基于GIS的羌塘高原冰川系统雪线场的建立及其空间分布特征

根据羌塘高原冰川系统测量雪线高度(ELAh)与冰川平均高度(Hm e)之间存在较好的线性关系,计算了其所有冰川的雪线高度ELAhc。量算的ELAh与计算的ELAhc十分接近,整个羌塘高原的差值(ELAh-ELAhc)平均仅为0.16 m,说明采用这种方法计算的雪线高度ELAhc是可信的。通过对比发现:在编绘雪线高度场时,将冰川系统内相邻冰川分组平均而生成的雪线场克服了地形雪线的影响,比未进行分组平均的雪线场更为美观整洁,规律性也很明显。羌塘高原冰川系统雪线场分布具有如下特征:(1)从南向北,雪线逐渐降低;(2)从东到西,雪线随之升高。从总体上来看,羌塘高原雪线从西南向东北逐渐降低的趋势,但变幅不大,多数在5 700 m以上,但最高值不在气温最高的南部或降水最少的西北部,而在隆格尔山,高达6 000 m以上,不仅是本区和青藏高原内陆水系雪线最高的,也是迄今所知北半球最高雪线所在地。其次分别为波波嘎屋峰、土则岗日和藏色岗日附近,最低值在金阳岗日附近,这是本区降水量从东南向西北减少、气温由南向北降低对雪线综合作用的结果。     

冰川系统模型及其应用——以金沙江流域为例

全球气候变化带来了一系列的影响,冰川的生存与发展也受到了它的影响.目前,全球变化下冰川的变化是国际冰川学界的研究热点之一.中国是世界上冰川分布最广的中纬度国家,冰川是中国西部干旱地区的重要水资源,冰川的变化对中国环境有重大影响.冰川系统模型是一种基于冰川系统理论的水文学冰川变化预测模型,该模型从系统论的角度对全球变化的背景下冰川融水的变化进行宏观预测,充分利用已有的冰川数据资料对冰川的变化趋势做出总体预测.本文以金沙江流域冰川系统为例,根据流域内的自然环境特征将其分为河源区冰川系统和非河源区冰川系统两个并列的系统,利用冰川系统模型对其在不同的气候变化情景下的响应趋势作了预测,证实了模型的正确性和可行性.这一模型的研究成果对应对全球变化可能产生的影响有积极作用.     

冰川系统模理及其应用——以金沙江流域为例

全球气候变化带来了一系列的影响,冰川的生存与发展也受到了它的影响。目前,全球变化下冰川的变化是国际冰川学界的研究热点之一。中国是世界上冰川分布最广的中纬度国家,冰川是中国西部干旱地区的重要水资源,冰川的变化对中国环境有重大影响。冰川系统模型是一种基于冰川系统理论的水文学冰川变化预测模型,该模型从系统论的角度对全球变化的背景下冰川融水的变化进行宏观预测,充分利用已有的冰川数据资料对冰川的变化趋势做出总体预测。本文以金沙江流域冰川系统为例,根据流域内的自然环境特征将其分为河源区冰川系统和非河源区冰川系统两个并列的系统,利用冰川系统模型对其在不同的气候变化情景下的响应趋势作了预测,证实了模型的正确性和可行性。这一模型的研究成果对应对全球变化可能产生的影响有积极作用。     

中国西部大陆性冰川与海洋性冰川物质平衡变化及其对气候响应——以乌源1号冰川和帕隆94号冰川为例

为认识全球变暖背景下中国西部大陆性冰川与海洋性冰川物质平衡变化及其对气候响应,本研究以天山乌鲁木齐河源1号冰川和藏东南帕隆94号冰川为例,结合大西沟与察隅站气象资料,对1980 — 2015年两条冰川的物质平衡变化特征及差异进行了分析。结果表明：36 a来乌源1号冰川与帕隆94号冰川物质平衡总体上均呈下降趋势,累积物质平衡达-17102与-8159 mm w.e.,相当于冰川厚度减薄19与9.01 m,且分别于1996、2004年左右发生突变。同期两条冰川所处区域年均温呈显著上升趋势,而降水量却表现出不同的变化态势;二者年内气温分配相仿,但降水分配差异较大。初步分析认为气温上升是导致乌源1号冰川与帕隆94号冰川物质亏损的主要原因,冰川区气温和降水变化幅度的差异和地性因子（坡度、冰川面积）的不同使得乌源1号冰川对气候变化响应的敏感性高于帕隆94号冰川,由于目前海洋性冰川物质平衡监测时段相对较短,为深入研究中国西部冰川物质平衡变化及过程仍需加强对冰川的持续观测。     

近50年气候变化背景下青藏高原冰川和湖泊变化(英文)

本文综述了近年来青藏高原冰川和湖泊变化研究取得的成果,并特别着重于冰川和湖泊变化的相互关系论述。在全球变暖背景下,近几十年青藏高原冰川以退缩为主,湖泊水量以增加为主。本文一方面对青藏高原冰川末端退缩、冰川面积和冰川储量变化方面的研究成果进行了综合分析,探讨了冰川变化的时空特征;另一方面从湖泊面积和水位与水量变化探讨了湖泊变化的时空规律。结果表明青藏高原冰川退缩的幅度总体上呈从青藏高原外缘向内陆呈减小的变化态势,受冰川融水补给比较大的湖泊近期面积扩张、水位上升明显。最后指出了青藏高原冰川、湖泊变化研究中存在的问题及今后的发展趋势。     

长江源区冰川对全球气候变化的响应

长江源区是青藏高原内部山地冰川集中分布的地区之一 ,其冰川储量都占长江流域冰川总量的一半以上。近几十年以来由于受全球气候变化的影响 ,长江源区气候呈暖干化的倾向 ,大多数冰川呈退缩状态 ,这对长江源区的生态环境产生深刻的影响 ,进而危及整个长江流域的生态安全。用英国Hadley气候预测与研究中心的GCM模型HADCM2预测长江源区未来的气候情景 ,结果显示在不同的实验条件下 ,气候都将由现在的暖干化趋势向暖湿化方向转变。通过建立长江源区对气候变化的响应模型 ,用来预测在未来气候情景下冰川变化的趋势 ,预计在本世纪的不同时期冰川零平衡线 (雪线 )将上升 16～ 5 0m。     

长江源区冰川对全球气候变化的响应

长江源区是青藏高原内部山地冰川集中分布的地区之一，其冰川储量都占长江流域冰川总量的一半以上。近几十年以来由于受全球气候变化的影响，长江源区气候呈暖干化的倾向，大多数冰川呈退缩状态，这对长江源区的生态环境产生深刻的影响，进而危及整个长江流域的生态安全。用英国Hadley气候预测与研究中心的GCM模型HADCM2预测长江源区未来的气候情景，结果显示在不同的实验条件下，气候都将由现在的暖干化趋势向暖湿化方向转变。通过建立长江源区对气候变化的响应模型，用来预测在未来气候情景下冰川变化的趋势，预计在本世纪的不同时期冰川零平衡线（雪线）将上升16－50m。     

Grain-size cycles in Salawusu River valley since 150 ka BP

The palaeo-mobile dune sands and fluvio-lacustrine facies with palaeosols in Milanggouwan stratigraphic section of the Salawusu River valley situated at the southeast of the Mu Us Desert experienced abundant remarkable alternative changes of coarse and fine rhythms in grainsize since 150 ka BP, and the grain-size parameters — Mz,σ, Sk, Kg and SC/D also respond to the situation of multi-fluctuational alternations between peak and valley values. Simultaneity the grainsize eigenvalues — Φ5, F16, Φ25, Φ50, Φ75, Φ84 and Φ95 are respondingly manifested as greatly cadent jumpiness. Hereby, the Milanggouwan section can be divided into 27 grain-size coarse and fine sedimentary cycles, which can be regarded as a real and integreted record of climate-geological process of desert vicissitude resulted from the alternative evolvement of the ancient winter and summer monsoons of East Asia since 150 ka BP.     

Grain-size cycles in Salawusu River valley since 150 ka BP

Situated at the southeast Mu Us Desert on the Ordos Plateau of China, the Salawusu River valley, contains abundant environmental vicissitude information of the East Asia Monsoon since Late Quaternary and serves as an excellent site for researches of sedimentology and climatology etc. As early as 1924, the French paleontologists Teilhard de Chardin et al. found the Upper-Pleistocene Salawusu Formation and drew an outline of the 搃deal section through the loessic lands of N and the SE co…     

萨拉乌苏河流域150 ka BP以来的粒度旋回

萨拉乌苏河流域米浪沟湾地层剖面150kaBP以来古流动砂丘砂与河湖相和古土壤在粒度上具有多次显著的粗细韵律交替变化，粒度参数-Mz、σ、Sk、Kg和SC/D亦随之响应为多波动峰谷交替的态势，同时，粒度特征值-φ5、φ16φ、φ25、φ50、φ84、φ9相应地表现为非常有节奏地跳动，据此，将米浪沟湾剖面划分为27个粒度粗细沉积旋回，并认为其是150kaBP以来在东亚冬夏古代季风交替影响下沙漠演变的一个颇为完整的气候-地质过程记录。     

Sedimentary cycles of trace elements in Salawusu River Valley since 150 ka BP

The paper makes some analyses on 11 trace elements in the Milanggouwan stratigraphical section in the Salawusu River valley, which is regarded as a prototype geology-palaeoclimate record since 150 ka BP. The results show that the content and variation of trace elements has experienced remarkably regular changes in the pace with coarse and fine sedimentary cycles of palaeo-aeolian sands to its overlying fluvio-lacustrine facies or/and palaeosols. The trace elements with chemical properties of relatively active (V, Sr, Cu, Ni, As) and relatively stable (P, Pb, Rb, Mn, Nb, Zr) are a manifestation of the corresponding 27 changeable cycles between peak and valley values, appearing a multi-fiuctuational process line of relative gathering and migration since then. The low numerical value distribution of these two types of trace elements in the aeolian sand facies represents erosion and accumulation under wind force during the cold-dry climate. Whereas their enrichments in both fluvio-lacustrine facies and palaeosols are related to the valley’s special low-lying physiognomic position between the Ordos Plateau and the Loess Plateau under the warm and humid climate conditions. The above relatively migrated and gathered change of the trace elements is the result of 27 climatic cycles of cold-dry and warm-humid, which is probably caused by repeated alternations of winter monsoon and summer monsoon in the Mu Us Sandy Land influenced by the climate vicissitudes in northern hemisphere during glacial and interglacial periods since 150 ka BP.     

Sedimentary cycles of trace elements in Salawusu River Valley since 150 ka BP

The paper makes some analyses on 11 trace elements in the Milanggouwan stratigraphical section in the Salawusu River valley, which is regarded as a prototype geology-palaeoclimate record since 150 ka BP. The results show that the content and variation of trace elements has experienced remarkably regular changes in the pace with coarse and fine sedimentary cycles of palaeo-aeolian sands to its overlying fluvio-lacustrine facies or/and palaeosols. The trace elements with chemical properties of relatively active (V, Sr, Cu, Ni, As) and relatively stable (P, Pb, Rb, Mn, Nb, Zr) are a manifestation of the corresponding 27 changeable cycles between peak and valley values, appearing a multi-fluctuational process line of relative gathering and migration since then. The low numerical value distribution of these two types of trace elements in the aeolian sand facies represents erosion and accumulation under wind force during the cold-dry climate. Whereas their enrichments in both fluvio-lacustrine facies and palaeosols are related to the valley’s special low-lying physiognomic position between the Ordos Plateau and the Loess Plateau under the warm and humid climate conditions. The above relatively migrated and gathered change of the trace elements is the result of 27 climatic cycles of cold-dry and warm-humid, which is probably caused by repeated alternations of winter monsoon and summer monsoon in the Mu Us Sandy Land influenced by the climate vicissitudes in northern hemisphere during glacial and interglacial periods since 150 ka BP.     

萨拉乌苏河流域MGS4层段记录的末次冰期早冰阶气候波动

萨拉乌苏河流域米浪沟湾末次冰期早冰阶时期记录了5.5个由古沙丘砂与河流相、湖沼相构成的沉积旋回。对各沉积旋回的粒度及微量元素分析表明,河流相和湖沼相的平均粒径Mz、分选系数σ和SC/D的值明显高于古沙丘砂,河湖相中的微量元素Mn、P、Rb、Zr、V、Ni含量普遍较古沙丘砂含量高,而Ba、Co等则呈现相反的变化;这些气候代用指标的波动构成了与沉积旋回相对应的5.5个粒度及微量元素变化旋回,指示了该地末次冰期早冰阶至少经历了6次冷干和5次暖湿的气候波动,其中若干次气候回暖事件和冷干事件可与格陵兰冰芯和葫芦洞石笋等记录的D/O事件和Heinrich事件相对应。米浪沟湾剖面地层记录的千年尺度气候波动既是对东亚季风环流演变历史的体现,同时也是对全球气候变化的响应。     

‘98嫩江,松花江洪水与流域综合管理

１９９８年夏季,嫩江,松花江流域发生历史罕见的洪水,此次洪水主要特征是水位高,水量大、持续时间长,灾情严重,由于嫩江支流相继发生洪水,致使嫩江干流再现三次较大的洪峰。农作物受灾面积４５６×１０＾４ｈｍ＾２,洪灾的主要原因是雨量大,汛期长,土地利用不合理,区域生态环境退化,缺乏控制性水利工程,亟需开展流域综合管理工作,加强水利工程建设,尤其是控制性水利工程建设,发展生态安全型农业。     

长江三峡坝区河谷深槽的地貌特征及其成因

通过实地观察，分析三峡工程坝区河谷深槽的地貌特征，并在此基础上，对三峡深槽的成因及其发育年代进行探讨，结果表明：（1）三峡坝区河谷深槽是在三峡地区构造抬升过程中，水流顺构造裂隙强裂侵蚀下切而形成的；对深槽堆积物中朽木进行的14C测年表明，三峡深槽的深切侵蚀大约发生在30－40ka BP;(2)三峡深槽的向下深切主要是急流（特别是漩流）携带岩砾对槽底进行研磨，掏蚀作用形成的；三峡坝区坝上深槽中的岩礁和左壁以及坝下深槽的右壁还受到急流携带岩砾的撞击、冲蚀、磨蚀和下沉流的垂向磨蚀作用；坝下深槽的左壁则是发育了深槽之后，由槽壁岩石的减压张裂及其水下的坍塌而拓展形成的；（3）深槽的平面延伸受到纵向裂隙构造的控制，最容易发生强烈深切的位置，则受到横向裂隙与纵向裂隙的受切部位控制；深槽中的深潭向下深切所能达到的深度，主要与局部水势的变化及床底岩石抗蚀强度的差异有关，其深度不受海面高度的限制。     

三峡坝区河谷深槽地貌特征及其成因

This paper describes valley bottom troughs of the Changjiang River and infers the geomorphologic development of troughs. Based on the morphology of the troughs, the following conclusions are drawn. (1) The deep troughs on the Three Gorges valley bottom are formed by river downcutting along the structural zones on the background of regional tectonic uplift at about 40-30 ka BP. (2) When river downcutting occurred in the river bed of Changjiang, the jets current (particularly eddy current) with a large number of pebbles ground and eroded the valley bottom, resulting in trough formation and deepening. Meanwhile, water currents with gravels and pebbles eroded the bank and the left wall of No.76 trough as well as the right wall of No.77 trough by striking, scouring, horizontal and vertical grinding. (3) The depth of the trough is mainly determined by the intensity of the water current and the consistency of bedrock against erosion, and is not controlled hv the altihlde of the sea level as the base level of erosion.     

Geomorphologic characteristics and origin of the valley bottom troughs at the site of Three Gorges Dam

This paper describes valley bottom troughs of the Changjiang River and infers the geomorphologic development of troughs. Based on the morphology of the troughs, the following conclusions are drawn. (1) The deep troughs on the Three Gorges valley bottom are formed by river downcutting along the structural zones on the background of regional tectonic uplift at about 40-30 ka BP. (2) When river downcutting occurred in the river bed of Changjiang, the jets current (particularly eddy current) with a large number of pebbles ground and eroded the valley bottom, resulting in trough formation and deepening. Meanwhile, water currents with gravels and pebbles eroded the bank and the left wall of No.76 trough as well as the right wall of No.77 trough by striking, scouring, horizontal and vertical grinding. (3) The depth of the trough is mainly determined by the intensity of the water current and the consistency of bedrock against erosion, and is not controlled by the altitude of the sea level as the base level of erosion.