生化变异记录的中欧全新世近十代暖季温度变异性

IF 4.6 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Paul D. Zander, Maurycy Żarczyński, Wojciech Tylmann, Hendrik Vogel, Martin Grosjean
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引用次数: 0

摘要

古气候数据提供了有关自然气候变异性特征的重要信息。然而,具有足够长度和分辨率以解析全新世高频率(十年尺度)变率的记录却非常稀少。我们基于波兰扎比安斯基湖的生化变异岩,以三年为分辨率重建了 10800 年的春季和夏季温度。该重建基于钙/钛比值,而钙/钛比值与跨度为 240 年的春季和夏季仪器温度有显著相关性。重建中体现了全新世时期的主要气候事件,包括全新世热极值、8.2 ka 事件、中世纪气候异常和小冰河时期。由于夏季日照减少,暖季气温出现了长达 8000 年的低频下降趋势。全新世早期的气温变化最大,这可能与更温暖、更干燥的条件有关。根据我们的重建,过去 90 年的变暖速度极不寻常,在全新世甚至是史无前例的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Subdecadal Holocene Warm-Season Temperature Variability in Central Europe Recorded by Biochemical Varves

Subdecadal Holocene Warm-Season Temperature Variability in Central Europe Recorded by Biochemical Varves

Paleoclimate data provide important information about the character of natural climate variability. However, records with sufficient length and resolution to resolve high-frequency (decadal-scale) variability across the Holocene are scarce. We present a 10,800-year reconstruction of spring and summer temperature at three-year resolution based on biochemical varves from Lake Żabińskie, Poland. The reconstruction is based on Ca/Ti ratio, which are significantly correlated with instrumental spring and summer temperature spanning 240 years. Major climate events of the Holocene period are represented in the reconstruction, including the Holocene Thermal Maximum, 8.2 ka Event, Medieval Climate Anomaly, and Little Ice Age. A low-frequency 8,000-year decreasing trend in warm-season temperatures is driven by declining summer insolation. Temperature variability is highest during the early Holocene, likely related to warmer and drier conditions. The rate of warming during the past 90 years is extremely unusual, if not unprecedented for the Holocene, based on our reconstruction.

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来源期刊
Geophysical Research Letters
Geophysical Research Letters 地学-地球科学综合
CiteScore
9.00
自引率
9.60%
发文量
1588
审稿时长
2.2 months
期刊介绍: Geophysical Research Letters (GRL) publishes high-impact, innovative, and timely research on major scientific advances in all the major geoscience disciplines. Papers are communications-length articles and should have broad and immediate implications in their discipline or across the geosciences. GRLmaintains the fastest turn-around of all high-impact publications in the geosciences and works closely with authors to ensure broad visibility of top papers.
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