Warming and Cooling: The Medieval Climate Anomaly in Africa and Arabia

S. Lüning, M. Gałka, F. Vahrenholt
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引用次数: 31

Abstract

The Medieval Climate Anomaly (MCA) is a well-recognized climate perturbation in many parts of the world, with a core period of 1000–1200 Common Era. Here we present a palaeotemperature synthesis for the MCA in Africa and Arabia, based on 44 published localities. The data sets have been thoroughly correlated and the MCA trends palaeoclimatologically mapped. The vast majority of available Afro-Arabian onshore sites suggest a warm MCA, with the exception of the southern Levant where the MCA appears to have been cold. MCA cooling has also been documented in many segments of the circum-Africa-Arabian upwelling systems, as a result of changes in the wind systems which were leading to an intensification of cold water upwelling. Offshore cores from outside upwelling systems mostly show warm MCA conditions. The most likely key drivers of the observed medieval climate change are solar forcing and ocean cycles. Conspicuous cold spikes during the earliest and latest MCA may help to discriminate between solar (Oort Minimum) and ocean cycle (Atlantic Multidecadal Oscillation, AMO) influence. Compared to its large share of nearly one quarter of the world's landmass, data from Africa and Arabia are significantly underrepresented in global temperature reconstructions of the past 2,000 years. Onshore data are still absent for most regions in Africa and Arabia, except for regional data clusters in Morocco, South Africa, the East African Rift, and the Levant coast. In order to reconstruct land palaeotemperatures more robustly over Africa and Arabia, a systematic research program is needed.
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变暖与变冷:非洲和阿拉伯的中世纪气候异常
中世纪气候异常(MCA)是世界许多地区公认的气候扰动,其核心时期为1000-1200共同时代。在这里,我们介绍了非洲和阿拉伯MCA的古温度合成,基于44个已发表的地点。这些数据集已经进行了彻底的关联,MCA趋势也被绘制成了古气候图。绝大多数可用的非洲-阿拉伯陆上场地都表明MCA是温暖的,但黎凡特南部除外,那里的MCA似乎很冷。由于风系统的变化导致冷水上升流的加剧,环非洲-阿拉伯上升流系统的许多部分也记录了MCA冷却。来自外部上升流系统的近海岩心大多显示出温暖的MCA条件。观测到的中世纪气候变化最可能的关键驱动因素是太阳活动和海洋周期。最早和最新MCA期间明显的冷尖峰可能有助于区分太阳(奥尔特极小期)和海洋周期(大西洋数十年振荡,AMO)的影响。与占世界陆地近四分之一的巨大份额相比,来自非洲和阿拉伯的数据在过去2000年的全球温度重建中的代表性明显不足。除了摩洛哥、南非、东非大裂谷和黎凡特海岸的区域数据集群外,非洲和阿拉伯的大多数地区仍然没有陆地数据。为了更有力地重建非洲和阿拉伯的陆地古温度,需要一个系统的研究计划。
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Paleoceanography
Paleoceanography 地学-地球科学综合
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