【摘 要】
:
Lacustrine sediment information HDP04, HDP08 and HDP09) printed in Lake H(o)vsg(o)l, Northern Mongolia and the lake-catchment conditions reveal long-and short-term environmental changes in the lake-ca
【机 构】
:
Institute of Nature and Environmental Technology, Kanazawa University, Kanazawa 920-1192, Japan
【出 处】
:
“东亚欧环境变化过程-亚洲季风变化与高低纬气候相互作用”第八届国际研讨会
论文部分内容阅读
Lacustrine sediment information HDP04, HDP08 and HDP09) printed in Lake H(o)vsg(o)l, Northern Mongolia and the lake-catchment conditions reveal long-and short-term environmental changes in the lake-catchment system.Changes in fluvial systems between the Holocene and the late Pleistocene have influenced sedimentary conditions.The information suggests that there were often rapid mass inflows (debris flow, turbidity, etc.) from the catchments during the late Pleistocene.The glacial-interglacial cycle is most clearly presented by aridity (water level change): three Milankovitch parameters (precession, obliquity and eccentricity) are detected in long lacustrine information.A deep depression (cold stage comparable to glacial periods), corresponded to insolation minimum, is detected at about the MIS-5d in records, indicating that this region is highly sensitive to solar insolation.Another depression found during the MIS-11 interval, corresponded also to small insolation minimum, shows that the interval was not a simple prolonged interglacial period.
其他文献
The long-term regional climate history can be studied by a range of climate proxies ice cores, stalagmites, corals and documentary material, as well as tree rings.Among those proxies, annual resolved
Long (Plio-Pleistocene) summer monsoon records have now been produced from the Arabian Sea, South China Sea and Chinese Loess Plateau, representing both the Indian and East Asian monsoon sub-systems.A
Lake Qinghai is situated on the northeastern Tibetan Plateau, which has played an important role in research fields about climate environment evolution and recent uplift of the Tibetan Plateau, as wel
Lake Biwa, located in central Japan, contains a thick sedimentary sequence deposited in lacustrine or fluvial environments during the Pleistocene.Tephrochronology and magnetostratigraphic analysis of
The Tibetan Plateau is the key to understanding the East Asian and Indian summer monsoons because of (i) its role in initiating and maintaining monsoon circulations and (ii) its high sensitivity to mo