青弋江是长江下游最大的一条支流,发源于安徽省黄山北麓。野外考察发现青弋江在泾县段共发育了三级河流阶地,其中最高阶地(T3)存在两个天然剖面,即CB-T3剖面和SJ-T3剖面。运用电子自旋共振(ESR)测年法,并结合相关文献资料,确定青弋江泾...青弋江是长江下游最大的一条支流,发源于安徽省黄山北麓。野外考察发现青弋江在泾县段共发育了三级河流阶地,其中最高阶地(T3)存在两个天然剖面,即CB-T3剖面和SJ-T3剖面。运用电子自旋共振(ESR)测年法,并结合相关文献资料,确定青弋江泾县段最高阶地的形成年代并探讨其构造气候意义。研究结果表明:青弋江泾县段最高阶地的年代约900 ka B.P.,是早中更新世过渡时期河流作用的产物;青弋江泾县段900 ka B.P.阶地是可能是构造抬升和东亚夏季风变化共同作用下的产物,其中构造抬升为阶地的形成提供了河流下切的动力条件,而东亚夏季风的强度变化为阶地的形成提供了气候条件。研究结果有助于为长江中下游地区的河流地貌研究提供基础数据和参考资料。展开更多
Based on a detailed study of the radiolarian fauna, the abundance pattern of planktic foraminifera as well as on isotope and sedimentological records, the Mid-Pleistocene climate transition as a multiple transition ph...Based on a detailed study of the radiolarian fauna, the abundance pattern of planktic foraminifera as well as on isotope and sedimentological records, the Mid-Pleistocene climate transition as a multiple transition phenomenon could be recognized at Core 17957-2 from the South China Sea. Distinct changes in the radiolarian/foraminfera ratio, the coarse fraction and the radiolarian assemblages can be related to the global climate cooling observed at the Mid-Pleistocene revolution (MPR) around 900 ka. A pronounced southward shift of the North Equatorial Current that leads to lower sea-surface temperatures in the South China Sea is documented by the shift of tropical to subtropical radiolarian assemblages at 900 ka. Increasing radiolarian abundance after the MPR can be interpreted as a result of stronger upwelling and nutrient supply. These abrupt variations could result from the northern trade wind system and East Asian monsoon circulation.展开更多
文摘青弋江是长江下游最大的一条支流,发源于安徽省黄山北麓。野外考察发现青弋江在泾县段共发育了三级河流阶地,其中最高阶地(T3)存在两个天然剖面,即CB-T3剖面和SJ-T3剖面。运用电子自旋共振(ESR)测年法,并结合相关文献资料,确定青弋江泾县段最高阶地的形成年代并探讨其构造气候意义。研究结果表明:青弋江泾县段最高阶地的年代约900 ka B.P.,是早中更新世过渡时期河流作用的产物;青弋江泾县段900 ka B.P.阶地是可能是构造抬升和东亚夏季风变化共同作用下的产物,其中构造抬升为阶地的形成提供了河流下切的动力条件,而东亚夏季风的强度变化为阶地的形成提供了气候条件。研究结果有助于为长江中下游地区的河流地貌研究提供基础数据和参考资料。
文摘Based on a detailed study of the radiolarian fauna, the abundance pattern of planktic foraminifera as well as on isotope and sedimentological records, the Mid-Pleistocene climate transition as a multiple transition phenomenon could be recognized at Core 17957-2 from the South China Sea. Distinct changes in the radiolarian/foraminfera ratio, the coarse fraction and the radiolarian assemblages can be related to the global climate cooling observed at the Mid-Pleistocene revolution (MPR) around 900 ka. A pronounced southward shift of the North Equatorial Current that leads to lower sea-surface temperatures in the South China Sea is documented by the shift of tropical to subtropical radiolarian assemblages at 900 ka. Increasing radiolarian abundance after the MPR can be interpreted as a result of stronger upwelling and nutrient supply. These abrupt variations could result from the northern trade wind system and East Asian monsoon circulation.
