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青藏高原西北缘祁漫塔格山中新世快速抬升的磷灰石裂变径迹证据
引用本文:拜永山,任二峰,范桂兰,许长青. 青藏高原西北缘祁漫塔格山中新世快速抬升的磷灰石裂变径迹证据[J]. 中国区域地质, 2008, 0(7): 1044-1048
作者姓名:拜永山  任二峰  范桂兰  许长青
作者单位:青海省地质调查院,青海西宁810001
基金项目:中国地质调查局国土资源调查项目(1:25万库朗米其提幅(146C003001)区域地质调查》(编号:200113000058)资助.
摘    要:对祁漫塔格山体不同海拔高度所取的9个磷灰石样品的裂变径迹分析结果表明,东昆仑西段中新世早中期为主要的隆升期且隆升速率较高,早期隆升速率为111m/Ma,晚期隆升速率为98m/Ma,总体隆升速率为100m/Ma。样品显示出磷灰石裂变径迹长度大致分2类,一类磷灰石裂变径迹长度为(12.21±10.20)-(13.75±0.30)μm,径迹长度分布图基本上为窄而对称的正态分布,反映具有快的剥露冷却速率,未受到后期热事件的干扰。另一类磷灰石裂变径迹长度为(11.88±0.33)~(13.32±0.27)μm,较前一类具有稍慢的剥露冷却速率,并且受到了后期热事件的干扰。

关 键 词:祁漫塔格山脉  裂变径迹  隆升时限  隆升速率

Apatite fission track evidence for the Miocene rapid uplift of the Qimantag Mountains on the northwestern margin of the Qinghai-Tibet Plateau.
BAI Yong-shan,REN Er-feng,FAN Gui-lan,XU Chang-qing. Apatite fission track evidence for the Miocene rapid uplift of the Qimantag Mountains on the northwestern margin of the Qinghai-Tibet Plateau.[J]. Regional Geology of China, 2008, 0(7): 1044-1048
Authors:BAI Yong-shan  REN Er-feng  FAN Gui-lan  XU Chang-qing
Affiliation:(Qinghai Institute of Geological Survey, Xining 810001, Qinghai, China)
Abstract:Fission track analysis was performed on nine apatite samples from different altitudes of the Qimantag Mountain. The results show that: the main uplift period in the westem segment of the East Kunlun Mountains was early-middle Miocene, when the uphft rate was relatively high, with an uphft rate of 111 m/Ma in the early stage and an uplift rate of 98 m/Ma in the late stage and a general uplift rate of 100 m/Ma. Sample analysis indicates that according to the fission track lengths, apatite may be divided into two types. One type of apatite has fission track lengths of 12.21±0.20 to 13.75±0.30 μm, and its fission track lengths are in the main of narrow and symmetric normal distribution, which reflects that this type had a rapid denudation and cooling rate and was not subjected to interference of the late-stage thermal event. The other type of apatite has fission track lengths of 11.88±0.33 to 13.32±0.27 μm, suggesting that this type had a denudation and cooling rate shghtly slower than the former type and underwent the interference of the late-stage thermal event.
Keywords:fission track  timing of uplift  rate of uplift  Qimantag Mountains
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