耀县黄土记录的全新世东亚冬夏季风非同步演化  被引量：57

作　　者：贾佳[1] 夏敦胜[1,2] 魏海涛[1] 刘秀铭[1] 汪海斌[1] 金明[1] 

机构地区：[1]兰州大学资源环境学院西部环境教育部重点实验室,兰州730000 [2]中国科学院寒区旱区环境与工程研究所沙漠与沙漠化重点实验室,兰州730000

出　　处：《第四纪研究》2009年第5期966-975,共10页Quaternary Sciences

基　　金：国家自然科学基金项目(批准号:40871080和90502008)资助

摘　　要：通过多指标分析了黄土高原中部地区耀县黄土剖面,重建了全新世以来该地区季风变化过程。结果显示研究区全新世冬、夏季风并非同步演化,夏季风:10.0～9.4kaB.P.快速转强;9.4～3.4kaB.P.为全新世强盛期,但夏季风在强盛期并不稳定,其中在6.8～5.9kaB.P.存在一个衰退事件;3.4kaB.P.以来夏季风快速衰退。在8.4kaB.P.之前,冬季风强盛,并逐渐减弱;8.4～6.6kaB.P.冬季风较弱;6.6～5.7kaB.P.存在一个冬季风突然增强;5.7～1.7kaB.P.冬季风为全新世最弱的阶段;1.7kaB.P.以来,冬季风强度迅速增大,具有不稳定性。耀县地区全新世冬、夏季风的演化过程不同步可能揭示了全新世冬、夏季风演化的主控因子不同。The Loess Plateau lies in the semi-arid zone of North China, where the atmospheric system is controlled by East Asia monsoon. Previous studies indicated that the loess deposits are excellent archives of palaeoenvironmental information and provide some of the most complete continental records of climate change. The research section （34°53′N,108°45′E） is located on the west of the thruway about 50m which is from Xi＇an to Tongchuan city,and near the Yao County. The thickness of loess sequences is about 5m,this research only reported the upper 4m. We sampling every 2cm,and gained 190 samples（the upper 20cm of stratum was disturbed by human, no sampling）. Every sample made magnetic and grain size analysis. To Contrast with the previous researches and using the magnetic age model to gain a age serial of this research object, the result showed that： the research sequences generated from about 10.3cal. kaB. P., the S0S3 generated between 9.4 - 7.5cal. kaB. P., the S0L2 generated between 7.5 - 5.9cal. kaB. P., the S0S2 generated between 5.9-3.4cal. kaB. P., the S0L1 generated between 3.4 -2.3cal. kaB. P., the S0Sj generated between 2.3-1.6cal. kaB. P. According to previous researches, the magnetic susceptibility of the loess is related to its genesis and can be used as an indicator to rebuild the intensity of ancient summer monsoons, while the particle size of the loess is controlled by the intensity of winter monsoon and can be used as an indicator to rebuild the intensity of ancient winter monsoons. Our study of the magnetic susceptibility and particle size of the loess suggests that the evolution of summer monsoon was asynchronous to the evolution of winter monsoon during the Holocene. The strength of summer monsoon increased very rapidly during 10.0-9.4kaB. P., reached the strongest during 9.4-3.4kaB. P., became weak during 6.8-5.9kaB. P. and decayed quickly after 3.4kaB. P. The strength of winter monsoon was very strong before 8.4kaB. P., then faded gradually and reached a stable state during 8.4-6.

关 键 词：耀县黄上 全新世 东亚季风 

分 类 号：P534.632[天文地球—第四纪地质学]