中纬度
遥相关
地质学
气候学
强迫(数学)
热带
热带气候
白垩纪
纬向和经向
气候系统
大气科学
古气候学
罗斯比波
作者
Zhifeng Zhang,Yongjian Huang,Qiuzhen Yin,Xiang Li,Daming Yang,Chao Ma,Chengshan Wang
出处
期刊:Geology
[Geological Society of America]
日期:2026-03-26
摘要
During the ice-free Cretaceous, the tropics have been proposed as key drivers of global climate, yet direct mid- to high-latitude evidence remains absent. Here, we present centennial-resolution geochemical records of hydroclimatic variability from early Campanian (83.62−83.14 Ma) midlatitude lacustrine successions. The records exhibit significant sub-precessional cycles at 10−12 k.y. and 5−5.4 k.y., and other millennial-scale cycles, primarily at ∼3.6 k.y., ∼2.6−2.5 k.y., and ∼2.3 k.y. High-precision chronology, phase locking of different proxies, and eccentricity-modulated amplitudes identify these sub-precessional signals as semi- and quarter-precession cycles. As these signals are most consistent with a tropical origin, their footprints in midlatitude hydroclimate records highlight the tropical control on climate during this greenhouse interval. Such low- to high-latitude teleconnection would provide efficient poleward heat and moisture transport, helping to reconcile the anomalously warm Cretaceous poles under a weak meridional temperature gradient. We further show that the ∼3.6 k.y. and ∼2.6−2.5 k.y. cycles arise from semi- and quarter-precession cycles via combination of tones and harmonics, whereas the ∼2.3 k.y. cycles are most likely linked to solar activity, underscoring their persistence throughout geological history.
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