%0 Journal Article %T PRELIMINARY RESULT OF THE DATING BY TCN TECHNIQUE OF THE HIGHEST TERRACE OF THE HEISHANXIA GORGE MOUTH,NORTHEAST MARGIN OF TIBETAN PLATEAU AND ITS EXPRESSION OF NEOTECTONIC MOVEMENT IN THAT AREA
黄河黑山峡口最高阶地宇宙核素的初步年龄 及所反映的新构造运动* %A Zhang Ke %A Cai Jianbo %A
张珂 %A 蔡剑波 %J 第四纪研究 %D 2006 %I %X The northeastern margin of Tibetan Plateau is characterized by very active thrust and strike-slip faults,which contribute mainly to the uplifting of mountain ranges and subsidence of basins along the margin.The Yellow River flows through the faults and cuts into the mountain ranges.Some terraces were uplifted several hundred meters higher above the modern river,while others were offset several kilometers off the modern river.Obviously,these terraces recorded the activities of the faults and the evolutionary history of the mountains,basins and the river itself.To study these records,dating these terraces is very important.However,it is difficult to date those high level terraces by conventional techniques because of the dating range limits.Terrestrial in situ cosmogenic nuclides(TCN) of ~(10)Be and ~(26)Al and vertical sample profile techniques,which take nucleon spallation,negative muon capture,and fast muon reactions account at the same time,can be used to date river terrace sediments over million-year timescales even though terraces are not well preserved.We use these techniques to date alluvium preserved on the highest terrace of 247m above the Yellow River at the area of the Heishanxia Gorge mouth in the northeast margin of Tibetan Plateau.Three amalgamated samples(consists of 48,74,70 quartzite clasts respectively) ranging in depth from 0,2m to 4m are collected and measured in PRIME Lab,Purdue University.By profile fitting of X~2 minimization solving for age,erosion rate,inheritance as well as bulk density,we have obtained a preliminary result of age of about 2.4Ma and a 15.5 8-4m/Ma erosional rate for the terrace.The erosion rate is similar to those in other arid mountainous areas.The age is much older than the calcium carbonate coats dating on the same terrace(1.57Ma).It is probably because that the coats dating was from samples collected from erosionally removed terrace,rather than the oldest ones.Although probably due to insufficient sampling restricted by preserved deposit thickness on the terrace,age precision is still not available currently,we believe that these techniques provide a promising method to date old terrace in the reaches of the Yellow River.The Xiangshan Mountain,on south block of west segment of Xiangshan-Tiajingshan Fault Zone is much higher than the highest terrace dated by TCN on north block.Considering that correlative terraces from two blocks have similar heights but largely different distances to the Yellow River,we suggest that around 2.4Ma before,west segment of the Xiangshan-Tiajingshan Fault Zone changed from thrust faulting to left lateral strike-slip faulting,and the Yellow River might be originated at that time. %K northeast margin of Tibetan Plateau %K the Yellow River %K high level terraces %K TCN dating
青藏高原东北缘 %K 黄河 %K 高阶地 %K 宇宙核素测年 %U http://www.alljournals.cn/get_abstract_url.aspx?pcid=E62459D214FD64A3C8082E4ED1ABABED5711027BBBDDD35B&cid=621CF755B1A341E5&jid=EA07051745CDC8D89D5F01A3A4CFE6A9&aid=6C01085BB5BD0277&yid=37904DC365DD7266&vid=96C778EE049EE47D&iid=CA4FD0336C81A37A&sid=CD775AE9DDBD7B53&eid=C753EB8AC8F551B9&journal_id=1001-7410&journal_name=第四纪研究&referenced_num=3&reference_num=32