ICDP workshop on scientific drilling of Nam Co on the Tibetan Plateau: 1 million years of paleoenvironmental history, geomicrobiology, tectonics and paleomagnetism derived from sediments of a high-altitude lake

IF 1.6 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Scientific Drilling Pub Date : 2019-06-12 DOI:10.5194/SD-25-63-2019

T. Haberzettl, G. Daut, N. Schulze, V. Spiess, Junbo Wang, Liping Zhu

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引用次数: 2

Abstract

Abstract. The Tibetan Plateau is of peculiar societal relevance as it provides freshwater from the so-called “Water Tower of Asia” to a large portion of the Asian population. However, future climate change will affect the hydrological cycle in this area. To define parameters for future climate change scenarios it is necessary to improve the knowledge about thresholds, timing, pace and intensity of past climatic changes and associated environmental impacts. Sedimentary archives reaching far back in time and spanning several glacial–interglacial cycles such as Nam Co provide the unique possibility to extract such information. In order to explore the scientific opportunities that an ICDP drilling effort at Nam Co would provide, 40 scientists from 13 countries representing various scientific disciplines met in Beijing from 22 to 24 May 2018. Besides paleoclimatic investigations, opportunities for paleomagnetic, deep biosphere, tectonic and paleobiological studies were discussed. After having explored the technical and logistical challenges and the scientific opportunities all participants agreed on the great value and need to drill this extraordinary archive, which has a sediment thickness of more than 1 km, likely covering more than 1 Ma.

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青藏高原纳木错科学钻探研讨会:高海拔湖泊沉积物的100万年古环境史、地球微生物学、构造学和古地磁学

摘要青藏高原具有特殊的社会意义，因为它为大部分亚洲人口提供了来自所谓的“亚洲水塔”的淡水。然而，未来的气候变化将影响该地区的水文循环。为了确定未来气候变化情景的参数，有必要提高对过去气候变化的阈值、时间、速度和强度以及相关环境影响的认识。沉积档案可以追溯到很久以前，跨越几个冰期-间冰期旋回，如纳木错，为提取这类信息提供了独特的可能性。为了探索南Co ICDP钻探工作将提供的科学机会，来自13个国家的40名科学家代表不同的科学学科于2018年5月22日至24日在北京会面。除了古气候研究外，还讨论了古地磁、深部生物圈、构造和古生物学研究的机会。在探索了技术和后勤方面的挑战以及科学机遇之后，所有参与者都同意钻探这个非同寻常的档案的巨大价值和必要性，该档案的沉积物厚度超过1公里，可能覆盖面积超过1平方公里。

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