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IODP341航次之阿拉斯加湾U1417站位磁性地层学研究 被引量:3
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作者 陈曦 葛淑兰 +1 位作者 刘建兴 杨刚 《第四纪研究》 CAS CSCD 北大核心 2017年第6期1334-1347,共14页
本文运用系统的岩石磁学与古地磁学研究方法,对取自亚北极阿拉斯加湾的IODP 341航次U1417站位191.94m的综合岩芯进行了磁性地层学研究,揭示了湾内1.9Ma以来高沉积速率的年代地层框架。沉积物样品在交变退磁场下获得了稳定的剩磁方向... 本文运用系统的岩石磁学与古地磁学研究方法,对取自亚北极阿拉斯加湾的IODP 341航次U1417站位191.94m的综合岩芯进行了磁性地层学研究,揭示了湾内1.9Ma以来高沉积速率的年代地层框架。沉积物样品在交变退磁场下获得了稳定的剩磁方向,并显示出4个正向极性段和3个负向极性段。结合IODP 341航次初步报告中古地磁和古生物的数据,确定了U1417综合岩芯的布容-松山极性转换界线(M/B:0.78Ma)位于钻孔110.46m,Jaramillo极性亚时、Cobb Mountain极性事件和Olduvai极性亚时的记录在岩芯中的深度分别对应133.28~139.91m、158.41~162.73m和182.67~191.94m。由上述年龄控制点推算出钻孔的沉积速率在1.2Ma以来显著上升,这可能与中更新世气候转型(MPT)所导致的源区侵蚀加剧有关。综上所述,该研究不仅为阿拉斯加湾深海沉积物研究提供了有效的年代学约束,也为更新世以来地层的进一步精细划分和对比提供了重要标尺。 展开更多
关键词 阿拉斯加湾 iodp 341航次u1417站位 M/B磁极性转换界线 极性亚时沉积速率
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Clay mineral assemblages of the oceanic red beds in the northern South China Sea and their responses to the Middle Miocene Climate Transition
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作者 Lei HE Zhifei LIU +1 位作者 Xuan LYU Pengfei MA 《Science China Earth Sciences》 SCIE EI CSCD 2022年第5期899-909,共11页
The Middle Miocene Climate Transition(MMCT,~14 Ma)is the largest cooling event in the Cenozoic“Coolhouse”,which significantly impacts the global chemical weathering pattern.In this paper,the responses of the MMCT gl... The Middle Miocene Climate Transition(MMCT,~14 Ma)is the largest cooling event in the Cenozoic“Coolhouse”,which significantly impacts the global chemical weathering pattern.In this paper,the responses of the MMCT global cooling event in the deep South China Sea were studied by clay mineral assemblages analysis of the oceanic red beds(ORB)at International Ocean Discovery Program(IODP)Expedition 368 Site U1502.The results show that the clay mineral assemblages of the ORB at Site U1502 are mainly composed of smectite(56–88%),illite(7–29%),and kaolinite(6–20%),without chlorite.The contents of these clay minerals and illite crystallinity show a four-stage variation pattern during early-middle Miocene(22.8–10.8 Ma).Smectite decreased from average 81%during 22.8–16.2 Ma and 16.2–14.4 Ma to average 67%during 13.8–10.8 Ma,with a rapid decrease of~14%during 14.4–13.8 Ma.On the contrary,illite and kaolinite increased rapidly by~8%and~6%,respectively,during 14.4–13.8 Ma.Illite crystallinity increased from average 0.18°Δ2θduring 22.8–16.2 Ma to average 0.19°Δ2θduring 16.2–14.4 Ma,and then decreased rapidly by~0.02°Δ2θduring 14.4–13.8 Ma.The provenance analysis of clay minerals shows that illite and kaolinite mainly originated from South China landmass due to physical erosion,while smectite mainly came from the Luzon arc as the product of chemical weathering.Therefore,smectite/illite ratio and illite crystallinity are used as proxies of chemical weathering intensity in the early-middle Miocene.High values of the ratio and the crystallinity represent the enhanced chemical weathering,whereas low values indicate the weakened chemical weathering or the strengthened physical erosion process.The smectite/illite ratio and illite crystallinity both decreased rapidly during 14.4–13.8 Ma,indicating the chemical weathering in the surrounding area of the South China Sea weakened rapidly,which we believe is the result of the MMCT event forcing.In addition,their values increased slightly during 16.2–14.4 Ma,which is in response to the relatively enhanced chemical weathering during the Middle Miocene Climate Optimum(MMCO).The variation pattern of clay mineral assemblages of the early-middle Miocene ORB in the South China Sea and its rapid transformation during the MMCT reveal that the Cenozoic cooling played a specific role in controlling the chemical weathering of the Earth’s surface. 展开更多
关键词 Clay minerals Chemical weathering Oceanic red beds(ORB) Middle Miocene Climate Transition(MMCT) South China Sea iodp Expedition 368 Site u1502
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南海北部大洋红层的黏土矿物组合及其对中中新世气候转型事件的响应 被引量:1
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作者 何蕾 刘志飞 +1 位作者 吕璇 马鹏飞 《中国科学:地球科学》 CSCD 北大核心 2022年第5期920-931,共12页
中中新世气候转型(MMCT;约14Ma)是新生代“冷室期”最大的降温事件,对全球化学风化格局产生重要影响.文章通过分析南海北部“国际大洋发现计划(IODP)”368航次U1502站位大洋红层的黏土矿物组合,研究MMCT全球降温事件在南海深海的响应.... 中中新世气候转型(MMCT;约14Ma)是新生代“冷室期”最大的降温事件,对全球化学风化格局产生重要影响.文章通过分析南海北部“国际大洋发现计划(IODP)”368航次U1502站位大洋红层的黏土矿物组合,研究MMCT全球降温事件在南海深海的响应.结果显示,U1502站位大洋红层的黏土矿物组合主要由蒙脱石(56~88%)、伊利石(7~29%)和高岭石(6~20%)组成,不含绿泥石.这些黏土矿物的含量和伊利石的结晶度在早中中新世22.8~10.8Ma期间呈现四个阶段的分布特征.蒙脱石从22.8~16.2和16.2~14.4Ma期间的平均81%降低到13.8~10.8Ma的平均67%,即在14.4~13.8Ma期间快速降低约14%;相反地,伊利石和高岭石经过14.4~13.8Ma时分别快速升高约8%和6%.伊利石结晶度从22.8~16.2Ma期间的平均0.18°Δ2θ增加到16.2~14.4Ma期间的平均0.19°Δ2θ后,经过14.4~13.8Ma期间时迅速减少约0.02°Δ2θ.黏土矿物的物源区分析显示,伊利石和高岭石主要来源于华南,是物理侵蚀的结果;而蒙脱石主要来源于吕宋岛弧,是化学风化的产物.因此,我们运用蒙脱石/伊利石比值和伊利石结晶度作为早中中新世风化作用的替代指标,比值的高值和结晶度的高值代表相对加强的化学风化作用,反之指示减弱的化学风化作用或加强的物理侵蚀过程.蒙脱石/伊利石比值和伊利石结晶度在14.4~13.8Ma期间都分别快速降低,显示南海周边地区化学风化作用快速减弱,我们认为这是响应MMCT全球降温事件的结果.此外,这些数值在16.2~14.4Ma期间略微升高,则是响应中中新世气候适宜期(Middle Miocene Climate Optimum,MMCO)较强化学风化作用的结果.南海深海早中中新世大洋红层的黏土矿物分布特征及其在MMCT时期的快速转变,揭示新生代变冷对于地球表层化学风化的特定控制作用. 展开更多
关键词 黏土矿物 化学风化作用 大洋红层 中中新世气候转型(MMCT) 南海 iodp368航次u1502站位
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