始新世早期加拿大北极地区(加拿大西北地区Beaufort-Mackenzie)亚热带温暖的证据

M. Salpin, J. Schnyder, F. Baudin, G. Suan, J. Suc, S. Popescu, S. Fauquette, L. Reinhardt, M. Schmitz, L. Labrousse
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引用次数: 12

摘要

古新世-始新世期间,地球经历了新生代最温暖的条件,赤道到极点的温度梯度减小。与低纬度和中纬度地区相比,北极地区的古近纪环境变化记录较少,尽管这些高纬度地区构成了限制全球气候变化的关键领域。据报道,在北冰洋周围的几个地方,植物和动物的组合表明,在古新世晚期-始新世早期,气候异常温暖和潮湿。需要进一步的研究来确定古新世-始新世全球环境变化对北极西部地区的影响。本文介绍了加拿大麦肯齐三角洲早始新世三角洲平原沉积物的多代数据。该环境以沿海森林为特征,包括沼泽,表明红树林Avicennia生长在75°N附近的加拿大北极地区,年平均气温为21-22°C,冬季平均气温为10-14°C,降水量为1200-1400 mm/年。高岭石含量高(高达粘土组合的75%),在现代亚热带气候下。最近在新西伯利亚群岛和加拿大北极地区发现的阿维琴尼亚花粉表明,始新世早期,温暖潮湿的环境在北极海岸广泛存在。它还表明北极盆地和中纬度海洋之间存在海洋联系。我们认为,一定有一股洋流将北极盆地与大西洋和/或太平洋连接起来,而且自始新世早期以来,北极盆地内部形成了一股洋流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evidence for subtropical warmth in the Canadian Arctic (Beaufort-Mackenzie, Northwest Territories, Canada) during the early Eocene
During the Paleocene–Eocene, the Earth experienced the warmest conditions of the Cenozoic and reduced equator-to-pole temperature gradients. Compared to low- and mid-latitude sites, Paleogene environmental changes are less documented in Arctic regions, although such high latitude areas constitute a critical domain to constrain global climate changes. Floral and faunal assemblages indicative of exceptionally warm and humid conditions during the late Paleocene–early Eocene have been reported in several localities around the Arctic Ocean. Additional studies are required to ascertain the effects of Paleocene–Eocene global environmental changes on western Arctic regions. Here we present multiproxy data from early Eocene deltaic plain sediments of the Mackenzie Delta (Canada). This environment is characterized by littoral forest, including swamp, showing that the mangrove Avicennia grew in Arctic Canada near 75°N under air temperatures averaging 21–22 °C annually and 10–14 °C in winter and with precipitation of 1200–1400 mm/yr. Kaolinite contents are high (up to 75% of clay assemblages), as under a modern subtropical climate. The Avicennia pollens recently found in the New Siberian Islands and in Arctic Canada imply that warm and wet conditions were widespread along the Arctic coast during the early Eocene. It also suggests a marine connection between the Arctic Basin and the mid-latitude oceans. We propose that an oceanic current must have connected the Arctic Basin to the Atlantic and/or Pacific and that an internal current developed in the Arctic Basin since the early Eocene.
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