鲁瑞洁2,3,,,
高尚玉2,3,
段晨曦2,3
1. 陕西师范大学地理科学与旅游学院, 陕西 西安 710119
2. 防沙治沙教育部工程研究中心, 北京师范大学地理科学学部, 北京 100875
3. 地表过程与资源生态国家重点实验室, 北京师范大学地理科学学部, 北京 100875
基金项目: 国家自然科学基金项目(批准号:41330748)、中央高校基本业务专项经费(批准号:GK201903073)和北京师范大学防沙治沙教育部工程研究中心开放课题共同资助
详细信息
作者简介: 刘小槺, 男, 29岁, 讲师, 风沙地貌和环境演变研究, E-mail:xiaokangliu@snnu.edu.cn
通讯作者: 鲁瑞洁, E-mail:ruijielu@bnu.edu.cn
中图分类号: P941.78;P534.63;P532收稿日期:2019-03-20
修回日期:2019-05-10
刊出日期:2019-07-30
The processes of lacustrine evolution during last glacial period inferred from sedimentary records in Mu Us dune field, North China
Liu Xiaokang1,,Lu Ruijie2,3,,,
Gao Shangyu2,3,
Duan Chenxi2,3
1. School of Geography and Tourism, Shaanxi Normal University, Xi'an 710119, Shaanxi
2. Engineering Center of Desertification and Blown-Sand Control of Ministry of Education, Faculty of Geographical Science, Beijing Normal University, Beijing 100875
3. State Key Laboratory of Earth Surface Processes and Resource Ecology, Faculty of Geographical Science, Beijing Normal University, Beijing 100875
More Information
Corresponding author: Lu Ruijie,E-mail:ruijielu@bnu.edu.cn
MSC: P941.78;P534.63;P532--> Received Date: 20 March 2019
Revised Date: 10 May 2019
Publish Date: 30 July 2019
摘要
摘要:毛乌素沙地位于东亚季风边缘区,对于气候变化响应敏感。基于沙地的侵蚀-堆积关系,在侵蚀作用为主的沙地西北部和中部很难找到沉积相对连续且分辨率较高的地层剖面,因此已有的末次冰期古气候环境研究多集中于堆积作用为主的沙地东南缘的萨拉乌苏河河谷地区。本文选取位于沙地腹地,厚度为3.5 m的风成砂-河湖相沉积序列——神水台(SSTG)剖面为研究对象,基于AMS14C和OSL年代数据,推测得出剖面中湖相层的上界和下界分别为约24.2 ka B.P.和42.7 ka B.P.,依据沉积地层和环境代用指标分析结果,针对末次冰期毛乌素沙地湖泊消涨的一般过程进行了探讨。结果表明,自约5万年以来,由神水台(SSTG)剖面指示了两次明显的湖泊主要发育期,时间分别约为42.7~34.3 ka B.P.和31.1~24.2 ka B.P.,期间粘土含量、有机质、红度均表现为低值,为含淡水螺壳化石的典型湖泊相沉积,且与毛乌素沙地已有湖泊发育的年代结果基本一致。在两期湖相层之间的砂层,平均粒径、砂含量表现为峰值,指示了一次明显的湖泊消退的过程,其时间约为34.3~31.1 ka B.P.;在湖相层上下可能均为风力作用为主导的风沙沉积。通过区域对比并初步探讨其可能的驱动机制,结果表明SSTG剖面记录的湖泊消涨过程主要受控于东亚季风强度的变化。
关键词: 毛乌素沙地/
末次冰期/
湖相沉积/
气候变化
Abstract:The Mu Us dune field is situated at the fringe area of East Asian monsoon and therefore is a climatically sensitive region that is well located for recording palaeoclimatic and palaeovironmental information. Over the years, many geological sections during the Last Glacial period were established, which provided the possibilities for the reconstruction of lacustrine evolution and climatic change. However, based on the erosion and accumulation relation in Mu Us region, it is difficult to find a relatively continuous section with high-resolution in the erosion-dominated northwestern and middle part in Mu Us dune field, thus previous researches focused mostly on the Salawusu River valley in the accumulation-dominated southeastern Mu Us dune field. In this paper, we selected SSTG section in the hinterland of the Mu Us region, which is mainly composed of lacustrine sediments and aeolian sand with 3.5 m thickness. Based on the stratigraphic evidence and the environmental proxies results from 130 sediments of the SSTG section, the processes of lacustrine evolution during Last Glacial period were explored. Results showed that since about 50 ka B. P. there existed two obvious periods ca. 42.7~34.3 ka B. P. and 31.1~24.2 ka B. P. approximately when lacustrine sediments were dominant and the time spans basically agreed with the previous studies. The sedimentary facies are typical lacustrine layers with freshwater shells fossils. The content of clay particle, the content of organic matter exhibited high levels, and mean grain size, the content of sand particle, redness value showed low levels. Actually, an obvious layer of sand was intercalated in the two lacustrine layers at the interval of 34.3~31.1 ka B. P. During this time, the mean grain size and the content of sand particle presented remarkable peak levels, accompanied by the low value of the content of organic matter and redness value, indicating the retreatment of lacustrine sediments. Additionally, except the lacustrine layers, the upper and lower parts were all aeolian sediments possibly. Based on the results of regional comparisons, we believed that the lacustrine evolution during the Last Glacial period is controlled by the strength of East Asian monsoon.
Key words:Mu Us dune field/
Last Glacial period/
lacustrine sediment/
climate change
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