阿纳德尔镇附近冰楔稳定水同位素重建全新世冬季气温

IF 0.7 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Led i Sneg-Ice and Snow Pub Date : 2019-03-20 DOI:10.15356/2076-6734-2019-1-93-102

N. Budantseva, Y. Vasil'chuk

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引用次数: 1

摘要

研究对象是距Anadyr镇2公里的Onemen湾沿岸的同低温全新世地层。2017年7月，对第一个被强风暴揭开的海洋阶地的露头进行了检查。露头地层以砂质壤土(厚5 ~ 7 m)为主，上覆泥炭(厚1 ~ 1.5 m)，下覆砂。许多冰楔在这露头的上部裂开。与此同时，还调查了另一个以2-2.5 m厚的泥炭沼泽为代表的湖沼盆地样带的露头，底底是砂壤土。冰楔出现在多角形海沟下面。现今狭窄的冰楔是在泥炭沼泽的上部发现的。对上述两个露头的两个有代表性的碎片进行了彻底的检查。放射性碳定年表明，第一代海相阶地表面泥炭的堆积始于全新世早期(约8 ka BP)。湖沼盆地泥炭地的形成也可追溯到全新世初期(约9ka BP)。在全新世中期，它很可能由于热岩溶作用和地表的沼泽而中断。全新世楚科奇泥炭地的形成伴随着泥炭地内部冰楔的活跃生长，因此我们所研究的泥炭地年龄估计为全新世的开始。对全新世和现代冰楔中稳定的氧和氢同位素的分析主要确定了冰楔的大气型水分补给(由于融化的雪)和在冰形成过程中缺乏明显的同位素分馏。全新世冰楔的δ18О和δ2Н值比现代冰楔和雪楔的平均值分别低2 ~ 3‰和7 ~ 12‰。根据同位素氧资料进行的古地温重建表明，全新世上半叶俄门湾地区冬季最冷月份的气温比现在平均低2 ~ 3℃，这与整个楚科奇半岛以及东西伯利亚和阿拉斯加其他地区冬季气温上升的趋势相吻合。

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Winter air temperature in Holocene reconstructed from the ice wedges stable water isotopes near Anadyr town

The object of research is syncryogenic Holocene strata on the coast of the Onemen Bay, 2 km from the town of Anadyr. In July 2017, the outcrop of the first marine terrace uncovered by strong storms was examined. The stratigraphy of the outcrop was represented mainly by sandy loam (5–7 m thick) covered by peat (1–1.5 m) and underlain by sand. Numerous ice wedges were opened in the upper part of this outcrop. Along with that another outcropping of transect of a lakemarsh basin represented by a peat bog of 2–2.5 m thick underlain by sandy loam was also investigated. Ice wedges occur below the polygonal trenches. The present-day narrow ice wedges were found in the upper part of the peat bog. Two representative fragments of both the above outcrops were thoroughly examined. Radiocarbon dating had shown that accumulation of peat on surface of the first marine terrace started in early Holocene (about 8 ka BP). Accumulation of peatland within the lake-marsh basin was also dated to the beginning of the Holocene (about 9 ka BP). In the middle of the Holocene, it was most likely interrupted as a result of thermokarst processes and bogging of the surface. Formation of peatlands in Chukotka during the Holocene is known to be accompanied by active growth of the ice wedges inside them, so the age of the wedges studied by us was estimated as the beginning of the Holocene. The analysis of stable oxygen and hydrogen isotopes in the Holocene and the modern ice wedges had allowed establishing mainly the atmospheric type of moisture feeding of the wedges (due to melted snow) and lack of noticeable isotope fractionation during the ice formation. It has been found that δ18О and δ2Н values in the Holocene ice wedges were lower than in the modern wedges and snow by an average 2–3 and 7–12 ‰, respectively. Paleotemperature reconstructions performed on the basis of isotopeoxygen data showed that the air temperature of the coldest winter month in the first half of the Holocene in the Onemen Bay area was lower than the present-day ones by an average 2–3 °C, which is in a good agreement with the trend of rising winter temperatures throughout the Chukotka Peninsula, as well as in other areas of Eastern Siberia and Alaska.

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来源期刊

Led i Sneg-Ice and Snow GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.50

自引率

42.90%

发文量

审稿时长

8 weeks

期刊介绍： The journal was established with the aim of publishing new research results of the Earth cryosphere. Results of works in physics, mechanics, geophysics, and geochemistry of snow and ice are published here together with geographical aspects of the snow-ice phenomena occurrence in their interaction with other components of the environment. The challenge was to discuss the latest results of investigations carried out on Russia’s territory and works performed by Russian investigators together with foreign colleagues. Editorial board works in collaboration with Glaciological Association that is professional community of specialists in glaciology from all republics of the Former Soviet Union which are now new independent states. The journal serves as a platform for the presentation and discussion of new discoveries and results which help to elucidate the state of the Earth’s cryosphere and the characteristics of the evolution of the snow-ice processes and phenomena under the current conditions of rapid climate change.