塔里木东北缘第四纪地质环境演化研究

doi:10.13866/j.azr.2016.01.27

干旱区研究 ›› 2016, Vol. 33 ›› Issue (1): 204-209.doi: 10.13866/j.azr.2016.01.27

塔里木东北缘第四纪地质环境演化研究

袁革新¹, 赵振华^1,2, 陈剑杰¹, 白友良¹, 闫长红¹

1.西北核技术研究所,陕西西安 710024;
2.南京大学地球科学与工程学院,江苏南京 210093

收稿日期:2014-03-07 修回日期:2014-07-09 出版日期:2016-01-15 发布日期:2016-01-29
作者简介:袁革新(1970-),男,高级工程师,主要从事中国西北地区环境地质研究工作.E-mail:yuan_gexin@aliyun.com

On the Quaternary Environment Evolution in the Northeast Margin of Tarim

YUAN Ge-xin¹, ZHAO Zhen-hua^1,2, CHEN Jian-jie¹, BAI You-liang¹, YAN Chang-hong¹

1. Northwest Institute of Nuclear Technology, Xi'an 710024, Shaanxi,China;
2. School of Earth Sciences and Engineering,Nanjing University, Nanjing 210093,Jiangsu,China

Received:2014-03-07 Revised:2014-07-09 Published:2016-01-15 Online:2016-01-29

摘要/Abstract

摘要： 罗布泊地区是我国西北干旱区环境研究的热点,在罗布泊干湖周边,保留有丰富的地质环境信息。为此,在罗布泊西北缘,针对区域地层构造分布特征、构造活动事件序列、湖泊沉积物及堆积土层中的环境信息进行分析,定量/半定量地重建了第四纪环境和气候变化,解析了未来可能再度出现的地质环境和气候变化的可能性。研究表明:本区第四纪以来主要有767～531 ka、255～158 ka和43～34 ka 3次较大规模构造活动,影响了罗布泊干湖近代的地形地貌分布特征,也影响湖面变化;研究区所处基岩剥蚀台地,地貌由剥蚀准平原化向平原化演化,通过基岩剥蚀“夷平”雏形时间和周边石质文物估算,剥蚀率为0.09～1.2 mm·ka^-1。总体上,该区域的干旱化趋势仍会持续。

关键词: 气候, 第四纪地质, 活动构造, 基岩剥蚀, 地质环境, 罗布泊

Abstract: Lop Nor area is a research hotspot of arid region because of the abundant geological environment information in the strata around Lop Nor dry lake. According to regional stratigraphic and tectonic information, sequence of tectonic events, the environmental information of lake sediment, the study reconstructed the quaternary environment and climate change quantitatively or semi quantitatively and estimated the trend of geological environment and climate change in the future. The study showed that, three large-scale tectonic activities which in 767-531 ka, 255-158 ka and 43-34 ka (middle-late stage of late pleistocene)influenced the modern topography distribution feature, and the ancient lake location changed since the quaternary period. This area is sated erosion platform, and has relatively stable development history, the erosion rate is about 0.09-1.2 mm·ka^-1 through the bedrock erosion “flattened” time and surrounding stone relics denudation rate. Through the above quaternary geological environment evolution and climate change exploration in northwestern margin of the LBP, we conclude preliminarily the tectonic activities control the hydrological distribution of study area, especially the scope of the ancient lake. In general, the climate of Lop Nor area for acidification is likely to continue.

Key words: climate, quatemary geology, active structure, rock erosion, geological environment, Lop Nor

袁革新, 赵振华, 陈剑杰, 白友良, 闫长红. 塔里木东北缘第四纪地质环境演化研究[J]. 干旱区研究, 2016, 33(1): 204-209.

YUAN Ge-xin, ZHAO Zhen-hua, CHEN Jian-jie, BAI You-liang, YAN Chang-hong. On the Quaternary Environment Evolution in the Northeast Margin of Tarim[J]. Arid Zone Research, 2016, 33(1): 204-209.

参考文献

〔1〕夏训诚,王富葆,赵元杰.中国罗布泊〔M〕.北京:科学出版社,2007:43-482.〔Xia Xuncheng,Wang Fubao,Zhao Yuanjie.Lop Nur,China〔M〕.Beijing:Science Press,2007:43-482.〕
〔2〕王富葆,马春梅,夏训诚,等.罗布泊地区自然环境演变及其对全球变化的响应〔J〕.第四纪研究,2008,28(1):150-153.〔Wang Fubao,Ma Chunmei,Xia Xunchen,et al.Environmental evolution in Lop Nur since late Pleietocene and its response to the global changes〔J〕.Quaternary Sciences,2008,28(1):150-153.〕
〔3〕谢连文,黄思静,李锋,等.罗布泊盐湖过去2 000 a气候变化曲线的全球对比〔J〕.中国岩溶,2004,23(4):311-316.〔Xie Lianwen,Huang Sijing,Li Feng,et al.Global comparison on Palaeoclimatic change in the saline Lop Nur during the past two thousand years 〔J〕.Carsologica Sinica,2004,23(4):311-316.〕
〔4〕赵娟,赵元杰,夏训诚.罗布泊红柳沙包记录的极端气候事件及影响因素〔J〕.干旱区研究,2012,29(6):1 094-1 099.〔Zhao Juan,Zhao Yuanjie,Xia Xuncheng.Analysis on extreme climate events recorded in Tamarix spp.dune and their affecting factors in the Lop Nur lake region 〔J〕.Arid Zone Research,2012,29(6):1 094-1 099.〕
〔5〕樊自立,艾里西尔·库尔班,徐海量,等.塔里木河的变迁与罗布泊的演化〔J〕.第四纪研究,2009,29(2):232-240.〔Fan Zili,Alishir Kurban,Xu Hailiang,et al.Changes of Tarim River and evolution of Lop Nur 〔J〕.Quaternary Sciences,2009,29(2):232-240.〕
〔6〕新疆维吾尔自治区地质矿产局. 新疆维吾尔自治区区域地质志〔M〕.北京:地质出版社,1997:668-672,743-756,841.〔Xinjiang Bureau of Geology and Mineral Resources.Regional geology of Xinjiang Province〔M〕.Beijing:Geology Publishing House,1997:668-672,743-756,841.〕
〔7〕袁国映,张宇.罗布泊自然保护区〔M〕.北京:科学出版社,2012:52-98.〔Yuan Guoying,Zhang Yu.Lop Nur Nature Reserve〔M〕.Beijing:Science Press,2012:52-98.〕
〔8〕 Turkington Alice V,Paradise Thomas R.Sandstone weathering:A century of research and innovation 〔J〕.Geomorphology,2005,67:229-253.
〔9〕许刘兵,周尚哲.基于宇宙成因核素¹⁰Be的青藏高原东南部地区末次间冰期以来地表岩石剥蚀速率研究〔J〕.地质学报,2009,83(4):487-495.〔Xu Liubing,Zhou Shangzhe.Quantifying erosion rates in the Southeastern Tibetan Plateau since the last interglacial using in-situ cosmogenic radionuclide ¹⁰Be〔J〕.Acta Geologica Sinica,2009,83(4):487-495.〕
〔10〕陈建强,周洪瑞.沉积学与古地理学教程〔M〕.北京:地质出版社,2004:112-114,276.〔Chen Jianqiang,Zhou Hongrui. Sedimentology and Paleogeography〔M〕.Beijing:Geological Publishing House,2004:112-114,276.〕
〔11〕王永,赵振宏,林景星.罗布泊AK1沉积物地球化学组成与古气候〔J〕.地球学报,2004,25(6):653-658.〔Wang Yong,Zhao Zhenhong,Lin Jingxing.Paleoclimate and geochemical composition of AK1 core sediments in Lop Nur,Xinjiang 〔J〕.Acta Geoscientica Sinica,2004,25(6):653-658.〕
〔12〕Yan Shun,Mu Guijin,Xu Yingqin.Quaternary environmental evolution of the Lop Nur region,NW China〔J〕.Acta Micropalaeontologica Sinica,2000,17(2):165-169.
〔13〕王永,赵振宏,严富华,等.罗布泊八一泉剖面孢粉组合及意义〔J〕.干旱区地理,2000,23(2):113-117.〔Wang Yong,Zhao Zhenhong,Yan Fuhua,et al.The spore-pollen assemblage and its significance of Bayiquan profile in Lop Nur〔J〕.Arid Land Geography,2000,23(2):113-117.〕
〔14〕段含明,艾里西尔·库尔班,张燕,等.近百年来罗布泊最后干涸时间的评述〔J〕.干旱区研究,2013,30(3):541-549.〔Duan Hanming,Alishir Kurban,Zhang Yan,et al.Review of the studies about the latest dried-up time of the Lop Nur lake in recent 100 years 〔J〕.Arid Zone Research,2013,30(3):541-549.〕

[1]	商淑静, 刘丹辉, 周轶昕, 吴家驹, 陆婷, 李文军. 气候变化背景下软紫草在中国的潜在适生区预测[J]. 干旱区研究, 2025, 42(9): 1628-1639.
[2]	蒋安尧, 陈睿山, 郑利林, 郭晓娜, 孙南沙, 李因帅. “三北”工程区极端降水时空演变特征与影响[J]. 干旱区研究, 2025, 42(8): 1357-1368.
[3]	李万志, 段丽君, 刘振磊, 祁门紫仪, 余迪, 姚海俊. 气候变暖背景下黄河上游地区暴雨灾害致灾危险性演变特征[J]. 干旱区研究, 2025, 42(8): 1369-1378.
[4]	严应存, 孙树娇, 余迪, 高贵生. 气候变化对柴达木盆地植被绿度的影响及趋势预估[J]. 干旱区研究, 2025, 42(7): 1257-1268.
[5]	杜俊, 李广, 杜梦寅, 姚瑶, 马维伟, 袁建钰. 黄土高原不同土地利用方式对土壤N₂O通量的影响[J]. 干旱区研究, 2025, 42(6): 1043-1054.
[6]	金爽, 任佳慧, 冯芳, 黄巧华, 何平. 基于GIS的陕甘宁地区红色旅游气候舒适度评价[J]. 干旱区研究, 2025, 42(6): 1093-1102.
[7]	邵俊杰, 陶通炼, 李志忠. 古尔班通古特沙漠南缘沉积物粒度和微量元素记录晚全新世气候变化[J]. 干旱区研究, 2025, 42(5): 788-799.
[8]	罗磊, 李曦光, 李萧婷, 王磊, 王蕾. 气候变化下沙棘在新疆潜在分布格局的变化[J]. 干旱区研究, 2025, 42(3): 511-522.
[9]	杨霞, 杨柳. 昆仑山北坡西段和中段暴雨的特征及差异[J]. 干旱区研究, 2025, 42(2): 202-211.
[10]	白松竹, 姚俊强, 马依拉古丽, 李岩瑛, 马幸蔚, 杜江. 吐哈地区沙尘天气时空演变特征及气候影响因子[J]. 干旱区研究, 2025, 42(10): 1791-1801.
[11]	赵艳芬, 王春成, 潘伯荣. 气候变化下脓疮草在中国的适宜分布区预测[J]. 干旱区研究, 2025, 42(10): 1851-1859.
[12]	岳胜如, 胡雪菲, 侯晓华, 孟福军. 基于CMIP6模式的塔里木河流域棉花生产评估[J]. 干旱区研究, 2025, 42(10): 1925-1938.
[13]	邹彬, 邹珊, 杨余辉. 1990—2023年新疆地表水体面积动态变化及其驱动因素[J]. 干旱区研究, 2025, 42(1): 40-50.
[14]	南宇琨, 刘鹏, 王伟, 陈遗志. 中国地表日平均风与日极大风气候特征的对比[J]. 干旱区研究, 2024, 41(9): 1468-1479.
[15]	袁征, 张志高, 闫瑾, 刘嘉毅, 胡柱钰, 王赟, 蔡茂堂. 1960—2020年黄河流域不同等级降水时空特征[J]. 干旱区研究, 2024, 41(8): 1259-1271.

塔里木东北缘第四纪地质环境演化研究

On the Quaternary Environment Evolution in the Northeast Margin of Tarim

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

Metrics

本文评价

推荐阅读 0