Trend analysis of the Younger Dryas event record

OCEANS 2014 - TAIPEI Pub Date : 2014-04-07 DOI:10.1109/OCEANS-TAIPEI.2014.7103756

Hang Xi-bin, Chu Fengyou, Li Jia-biao, Jin Xianglong, Bian Ye-ping, Khim Boo-keun

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Abstract

As the latest abrupt cold event, the study on the Younger Dryas event is important to forecast the change of future climate, especially to present global warming. So that what caused the event and how the event worldly spread is crucial to anticipate anything like that. Spatial distribution and relative timing of the Younger Dryas event are central for our understanding of causes and transferring mechanism of it. From the large numbers of the published works on the late Quaternary paleoclimatic research, the evidences of the Younger Dryas event were summarized and the accurate coordinates of these sites were put on the world map with Mapinfo software From more than 200 sites which have the event records, the onset, the termination and duration trend of it are figured and analyzed. The onset time of the event is different from 11.8 cal. ka B.P. to 13.7 cal. ka B.P. The mean value is 12.72 cal. ka B.P. The contour line of 12.8 cal. ka B.P. circle more than half of the earth, from Europe to Qinghai-Tibet Plateau, southwest Pacific, east Antarctica, South Africa, South Atlantic Ocean and South America. The earliest site is 13.7 cal. ka B.P. at MD01-2386 core, West Pacific Warm Pool and at AD91-17, South Adriatic Sea, not at Arctic region. The end time of the event is 7.8-12.53 cal. ka B.P., mean is 11.52 cal. ka B.P. The contour line of 11.5 cal. ka B.P. covers almost north Hemisphere except North Africa and west Pacific, from north to south total tread of the terminative time is younger. The terminative time of the event at continents is earlier than around oceans. The duration of the Younger Dryas event is 0.25-4.46 cal. ka, the mean value is 1.20 cal. ka. The areas more than 1.2 cal. ka is most in low latitude. At the North Africa and the West Pacific Warm Pool the duration is longer than at other places. While at high latitude it is shorter. The results indicate that the origin of the Younger Dryas event is at West Pacific Warm Pool. The trigger is Qinghai-Tibet Plateau. The changing of the atmosphere general circulation is the reason of the beginning and the ending of the event. And the signs of the event are transferred by the air circulation and ocean-air exchanging. Because special factors the local responses of the Younger Dryas event are diversity in different places.

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新仙女木事件记录的趋势分析

新仙女木事件作为最近的一次突发性冷事件，其研究对预测未来气候变化，特别是当前全球变暖具有重要意义。所以是什么导致了这个事件以及这个事件如何在世界范围内传播对于预测类似的事情是至关重要的。新仙女木事件的空间分布和相对时间对我们理解新仙女木事件的成因和转移机制具有重要意义。在大量已发表的晚第四纪古气候研究文献的基础上，总结了新仙女木事件的证据，并利用Mapinfo软件在世界地图上绘制了新仙女木事件发生地点的精确坐标，对新仙女木事件的开始、结束和持续趋势进行了图形化分析。事件的发生时间在11.8 ~ 13.7 cal. ka B.P.之间，平均值为12.72 cal. ka B.P.， 12.8 cal. ka B.P.的等高线环绕地球的一半以上，从欧洲到青藏高原、西南太平洋、南极洲东部、南非、南大西洋和南美洲。最早的测点为13.7 cal. ka B.P.，位于西太平洋暖池MD01-2386芯和南亚得里亚海AD91-17，而非北极地区。事件结束时间为7.8 ~ 12.53 cal. ka B.P.，平均为11.52 cal. ka B.P.。11.5 cal. ka B.P.的等高线覆盖了除北非和西太平洋外的几乎整个北半球，从北向南的结束时间总跨度较短。地震在大陆的结束时间比在海洋的结束时间早。新仙女木事件的持续时间为0.25 ~ 4.46 cal. ka，平均值为1.20 cal. ka。1.2 cal. ka以上的地区以低纬度地区居多。北非和西太平洋暖池的持续时间比其他地方更长。而在高纬度地区则较短。结果表明，新仙女木事件起源于西太平洋暖池。导火索是青藏高原。大气环流的变化是事件发生和结束的原因。大气环流和海气交换传递了事件的迹象。由于特殊因素的影响，新仙女木事件的局部响应在不同地区呈现出多样性。

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OCEANS 2014 - TAIPEI

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