Climatic response to solar activity recorded in the Eocene varves from Qaidam Basin, northern Tibetan Plateau

IF 1.7 3区 地球科学 Q2 PALEONTOLOGY Palaeoworld Pub Date : 2024-06-01 DOI:10.1016/j.palwor.2022.11.004
Lei Zhang , Ya-Nan Fang , Yi-Zhe Wang , Nai-Hua Xue , Sha Li , Lei Chen , Hai-Chun Zhang
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Abstract

The Earth’s climate has been proved to be consistently paced by the quasi-periodic sunspot activity since the Paleoproterozoic. However, climatic response to the sunspot cycles in high-altitude areas under greenhouse condition is still unclear, largely due to the lack of high-resolution palaeoclimatic data. Here we present a continuous, 30-cm-long core sample from the Eocene upper Xiaganchaigou Formation in the southwestern Qaidam Basin in the northern Tibetan Plateau. This core is marked by well-preserved annually chemogenic varves, composed of couplets of light micrite and dark clastic laminae. Varve thickness mainly ranges from 0.1 to 0.5 mm. Power spectrum of the bed number series of varve thickness shows a distinct cycle with a period of ∼20 year, which can be related to the 22-year Hale sunspot cycle. In addition, we use XRF (X-ray fluorescence) Ca concentration and K/Ti ratio data and μ-XRF (micro-X-ray fluorescence) Ca and K intensity data as paleoclimate proxies to conduct detailed cyclostratigraphic analyses. Power spectra of these proxies show sedimentary cycles at wavelengths of ∼40–12 mm, ∼8–3 mm, 3–1 mm and 0.2–0.1 mm, which are most likely caused by the ∼90-year Gleissberg sunspot cycle, 22-year Hale sunspot cycle, 11-year Schwabe sunspot cycle and annually seasonal cycle, respectively. The consistent results from the above five independent paleoclimate proxies indicate that climate in the high-altitude Qaidam Basin in the Eocene greenhouse period was paced by multiple-scale sunspot cycles. Periodic variances in total solar irradiance (TSI) and galactic cosmic ray (GCR)-related clouds paced by sunspot cycles may play a key role on modulating regional climatic changes in the Qaidam Basin.

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青藏高原北缘柴达木盆地始新世气候对太阳活动的响应
自古新生代以来,地球气候一直受到准周期性太阳黑子活动的影响。然而,在温室条件下,高海拔地区的气候对太阳黑子周期的反应仍不清楚,这主要是由于缺乏高分辨率的古气候数据。在此,我们展示了来自青藏高原北部柴达木盆地西南部始新世上夏干柴沟地层的30厘米长的连续岩芯样本。该岩心具有保存完好的年度化生变粒,由浅色微晶岩和深色碎屑岩层组成。变粒厚度主要在 0.1 至 0.5 毫米之间。变粒厚度的层数序列功率谱显示出一个明显的周期,周期为 20 年,这可能与 22 年的黑尔太阳黑子周期有关。此外,我们利用 XRF(X 射线荧光)Ca 浓度和 K/Ti 比率数据以及 μ-XRF(微 X 射线荧光)Ca 和 K 强度数据作为古气候代用指标,进行了详细的周期地层分析。这些代用指标的功率谱显示,沉积周期的波长分别为∼40-12 毫米、∼8-3 毫米、3-1 毫米和 0.2-0.1 毫米,很可能分别由∼90 年 Gleissberg 太阳黑子周期、22 年 Hale 太阳黑子周期、11 年 Schwabe 太阳黑子周期和年季节周期引起。上述五个独立的古气候代用指标的一致结果表明,始新世温室时期高海拔的柴达木盆地的气候是以多尺度的太阳黑子周期为步调的。太阳黑子周期所引起的太阳总辐照度(TSI)和银河宇宙射线(GCR)相关云的周期性变化可能对柴达木盆地的区域气候变化起着关键的调节作用。
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来源期刊
Palaeoworld
Palaeoworld PALEONTOLOGY-
CiteScore
4.00
自引率
5.90%
发文量
95
期刊介绍: Palaeoworld is a peer-reviewed quarterly journal dedicated to the study of past life and its environment. We encourage submission of original manuscripts on all aspects of palaeontology and stratigraphy, comparisons of regional and global data in time and space, and results generated by interdisciplinary investigations in related fields. Some issues will be devoted entirely to a special theme whereas others will be composed of contributed articles. Palaeoworld is dedicated to serving a broad spectrum of geoscientists and palaeobiologists as well as serving as a resource for students in fields as diverse as palaeobiology, evolutionary biology, taxonomy and phylogeny, geobiology, historical geology, and palaeoenvironment. Palaeoworld publishes original articles in the following areas: •Phylogeny and taxonomic studies of all fossil groups •Biostratigraphy, chemostratigraphy, chronostratigraphy •Palaeoecology, palaeoenvironment and global changes throughout Earth history •Tempo and mode of biological evolution •Biological events in Earth history (e.g., extinctions, radiations) •Ecosystem evolution •Geobiology and molecular palaeobiology •Palaeontological and stratigraphic methods •Interdisciplinary studies focusing on fossils and strata
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