Advanced Search

GONG Hu-jun, ZHANG Yun-xiang, HUANG Lei. Paleoenvironment Sign ificance of Grain-size Composition of Neogene Red Clay in Linxia Basin, Gansu Province[J]. Acta Sedimentologica Sinica, 2005, 23(2): 260-267.
Citation: GONG Hu-jun, ZHANG Yun-xiang, HUANG Lei. Paleoenvironment Sign ificance of Grain-size Composition of Neogene Red Clay in Linxia Basin, Gansu Province[J]. Acta Sedimentologica Sinica, 2005, 23(2): 260-267.

Paleoenvironment Sign ificance of Grain-size Composition of Neogene Red Clay in Linxia Basin, Gansu Province

  • Received Date: 2004-04-19
  • Rev Recd Date: 2004-09-08
  • Publish Date: 2005-06-10
  • The Linxia basin is situated in the northeastern part of the Qinghai-Tibet Plateau, and it is a flexural basin bounded by mountains. The weathering and erosion materials that come from Plateau can be deposited in the Basin in the first place, the sediments of the basin completely record the history of the climatic changes brought by the up lift of the Qinghai-Tibet Plateau. Therefore, the sediments of the Linxia basin can sensitively indicate the up lifting processes of the Qinghai-Tibet Plateau and the climatic changes in a short period of time. Analytic consequences of the grain-size composition and the magnetic suscep tibility of the Neogene Red Clay in Linxia basin show: Since 8.2 Ma, climatic changes undergo Asian aridification periodic evolution and east Asian wintermonsoon secular reinforcement processes. During 8.2~7.4Ma, east Asian winter monsoon begins to form in this area, early stage Asian aridification results in the formation of eolian dust source, Neogene Red Clay begins to deposit in the basin, especially, aridity or semiaridity grassland environment and /or grassland environment with less forest offer favorable background for the Red Clay deposits. The east Asian winter monsoon that is gradually strengthened begins to influence the Loess Plateau in the east part of the Liupan mountain ( 7.4 ~6.8Ma), then, mass accumulations of the Red Clay start to deposit in the loess plateau. Meanwhile, the climate of the basin transforms semiaridification into semihumidity. From 6.8 Ma to 6.0Ma, the climate and the tectonics are fairly stable.During 5.9 ~5.3Ma, climatic changes undergo a period of small scope changes between the winter and summer monsoon intensity in Linxia basin, it indicates a dry wet and dry cool climatic environment. Between5.3Ma and 4.8Ma, the east Asia winter monsoon system prevails, aridification is the strongest in the basin evolution history from 8.2Ma to 4.0 Ma, climatic characteristics is cool and dry. The summer monsoon begins to strengthen and the climate becomeswarm and humid (4.8~4.0Ma). After 4.0Ma B. P, the Qinghai-Tibet Plateau begins to strongly up lift again, which results in the deposits of massive gravel conglomeration named Jishi Formation in the Linxia Basin.
  • [1] 1 Zheng H B,An Z S,Shaw J. New contributions to Chinese Plio-Pleistocene magnetostratigraphy[J].Physics of the Earth and Planetary Interiors, 1992. 146-156.

    2 Sun D H,Liu T S,Chen M Y. Magnetostratigraphy and paleoclimate of red clay sequences from the Chinese Loess Plateau[J].Science in China,1997,(04):337-343.

    3 Sun D H,Shaw J,An Z S. Magnetostratigraphy and paleoclimatic interpretation of a continuous 7.2 Ma late Cenozoic eolian sediments from the Chinese Loess Plateau[J]. Geophysical Research Letters,1998,(01):85-88.

    4 Ding Z L,Sun J M,Liu T S. Wind-blown origin of the Pliocene red clay formation in the central Loess Plateau[J].China Earth and Planetary Science Letters,1998.135-143.

    5 Ding Z L,Sun J M,Yang S L. Preliminary magnetostratigraphy of a thick eolian red clay-loess sequence at Lingtai the Chinese Loess Plateau[J]. Geophysical Research Letters,1998,(8):1225-1228.

    6 丁仲礼,孙继敏,朱日祥. 黄土高原红粘土成因及上新世北方干旱化问题[J].第四纪研究,1997,(02):147-157.

    7 鹿化煜,安芷生. 黄土高原红粘土与黄土-古土壤粘度特征对比-红粘土风成成因的新证据[J].沉积学报,1999,(02):226-232.

    8 杨石岭,候圣山,王旭. 泾川晚三化红粘土的磁性地层及其与灵台剖面的对比[J].第四纪研究,2000,(05):423-434.

    9 孙东怀,陈明扬,Shaw J. 晚新生代黄土高原风尘堆积序列的磁性地层年代与古气候记录[J].中国科学D辑,1998,(01):79-84.

    10 郭正堂,彭淑贞,郝青振. 晚第三纪中国西北干旱化的发展及其与北极冰盖形成演化和青藏高原隆升的关系[J].第四纪研究,1999,(06):556-567.

    11 安芷生,孙东怀,陈明扬. 黄土高原红粘土序列与晚第三纪的气候条件[J].第四纪研究,2000,(05):435-446.

    12 An Z S,Wang S M,Wu X H. Eolian evidence from the Chinese Loess Plateau:the onset of the late Cenozoic great glaciation in the Northern Hemisphere and Qinghai-Xizang Plateau uplift forcing[J].Earth Science,1999,(03):258-271.

    13 安芷生,刘晓东. 东亚季风气候的历史与变率[J].科学通报,2000,(3):238-249.

    14 丁仲礼,杨石岭,孙继敏,刘东生. 2.6Ma前后大气环流重构的黄土-红粘土沉积证据[J].第四纪研究,1999,(03):277-281.

    15 方小敏,李吉均,朱俊杰. 甘肃临夏盆地新生代地层绝对年代测定与划分[J].科学通报, 1997. 1457-1471.

    16 邓涛,王晓鸣,倪喜军. 临夏盆地新生代地层及其哺乳动物化石证据[J].古脊椎动物学报,2003,(01):45-66.

    17 薛祥煦,鹿化煜,周杰. 陕西旬邑新近系红土剖面粒度组成的古气候意义[J].沉积学报,2002,(01):119-123.

    18 鹿化煜,安芷生. 洛川黄土粒度组成的古气候意义[J].科学通报,1997,(01):66-69.

    19 鹿化煜,安芷生. 黄土高原黄土粒度组成的古气候意义[J].中国科学D辑,1998,(03):278-283.

    20 苗晓东,孙有斌,鹿化煜. 黄土高原晚上新世红粘土粒度的空间变化[J].沉积学报,2001,(02):182-185.

    21 Quade J,Cerling T E,BowmanJ R. Development of Asian monsoon revealed by marked ecological shfit during the latest Miocene in northern Pakistan[J].NATURE,1998.163-166.

    22 Molnar P,Martinod J,Engl P. Mantle dynamics,uplift of the Tibetan Plateau,and the Indian monsoon[J].Reviews of Geophysics,1993.357-396.

    23 Harrison T M,CopelP,Kidd W S F. Raising Tibet[J].Science,1992.1663-1670.

    24 李吉均,方小敏. 临夏地区30.6~5.0Ma红层孢粉植物群与气候演化记录[J].Chinese Science Bulletin,1998,(03):301-304.

    25 Rea D K,Snoeckx H,Joseph L H. Late Cenozoic eolian deposition in the North Pacific:Asian drying,Tibetan uplift & cooling of the Northern Hemisphere[J]. Paleoceanography,1998.215-224.

    26 施雅风,汤懋基,马玉贞. 青藏高原二期隆升与亚洲季风孕育探讨[J].中国科学D辑,1998,(03):262-271.

    27 彭华. 关于青藏高原隆升对中国气候影响的讨论[J].干旱区地理,1994,(03):1-9.

    28 刘东生,郑锦平,郭正堂. 亚州季风系统的起源和发展及其两极冰和区域构造运动时代耦合性[J].第四纪研究,1998,(08):194-203.

    29 陈隆勋. 东亚季风[M].北京:气象出版社,1991.1-262.

    30 李吉均,赵志军. 德日进"亚洲干极"理论的现实意义[J].第四纪研究,2003,(04):366-371.

    31 张云翔,岳乐平,陈丹玲. 中国北部新第三纪红层划分的岩石学标志及其意义[J].地层学杂志,1997,(01):63-67.
  • 加载中
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

Article Metrics

Article views(507) PDF downloads(560) Cited by()

Proportional views
Related
Publishing history
  • Received:  2004-04-19
  • Revised:  2004-09-08
  • Published:  2005-06-10

Paleoenvironment Sign ificance of Grain-size Composition of Neogene Red Clay in Linxia Basin, Gansu Province

Abstract: The Linxia basin is situated in the northeastern part of the Qinghai-Tibet Plateau, and it is a flexural basin bounded by mountains. The weathering and erosion materials that come from Plateau can be deposited in the Basin in the first place, the sediments of the basin completely record the history of the climatic changes brought by the up lift of the Qinghai-Tibet Plateau. Therefore, the sediments of the Linxia basin can sensitively indicate the up lifting processes of the Qinghai-Tibet Plateau and the climatic changes in a short period of time. Analytic consequences of the grain-size composition and the magnetic suscep tibility of the Neogene Red Clay in Linxia basin show: Since 8.2 Ma, climatic changes undergo Asian aridification periodic evolution and east Asian wintermonsoon secular reinforcement processes. During 8.2~7.4Ma, east Asian winter monsoon begins to form in this area, early stage Asian aridification results in the formation of eolian dust source, Neogene Red Clay begins to deposit in the basin, especially, aridity or semiaridity grassland environment and /or grassland environment with less forest offer favorable background for the Red Clay deposits. The east Asian winter monsoon that is gradually strengthened begins to influence the Loess Plateau in the east part of the Liupan mountain ( 7.4 ~6.8Ma), then, mass accumulations of the Red Clay start to deposit in the loess plateau. Meanwhile, the climate of the basin transforms semiaridification into semihumidity. From 6.8 Ma to 6.0Ma, the climate and the tectonics are fairly stable.During 5.9 ~5.3Ma, climatic changes undergo a period of small scope changes between the winter and summer monsoon intensity in Linxia basin, it indicates a dry wet and dry cool climatic environment. Between5.3Ma and 4.8Ma, the east Asia winter monsoon system prevails, aridification is the strongest in the basin evolution history from 8.2Ma to 4.0 Ma, climatic characteristics is cool and dry. The summer monsoon begins to strengthen and the climate becomeswarm and humid (4.8~4.0Ma). After 4.0Ma B. P, the Qinghai-Tibet Plateau begins to strongly up lift again, which results in the deposits of massive gravel conglomeration named Jishi Formation in the Linxia Basin.

GONG Hu-jun, ZHANG Yun-xiang, HUANG Lei. Paleoenvironment Sign ificance of Grain-size Composition of Neogene Red Clay in Linxia Basin, Gansu Province[J]. Acta Sedimentologica Sinica, 2005, 23(2): 260-267.
Citation: GONG Hu-jun, ZHANG Yun-xiang, HUANG Lei. Paleoenvironment Sign ificance of Grain-size Composition of Neogene Red Clay in Linxia Basin, Gansu Province[J]. Acta Sedimentologica Sinica, 2005, 23(2): 260-267.
Reference (1)

Catalog

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return