The Pacific-North American teleconnection in the Cenozoic

Abstract

The Pacific-North American teleconnection (PNA) is one of the most important atmospheric modes in the Northern Hemisphere in modern climate. Through the PNA teleconnection, climate variations in the tropical Pacific have significant impacts on North America. However, whether there existed the PNA-like mode in the deep-time climate and how it evolved remain unknown. Here, we study the evolution of the PNA in the past 70 million years, using simulation results with the fully coupled Community Earth System Model version 1.2.2 (CESM1.2.2). Our simulation results show that there existed a PNA-like mode (referred to as PNA in this study) in the Cenozoic, but with different strengths and pathways. The strengths of the PNA were weaker over 70–40 million years ago (Ma) than that of the present, while it is comparable to the present over 30–10 Ma. Diagnosis indicates that the weaker strengths and distorted pathways of the PNA before ∼40 Ma are due to weaker meridional temperature gradients in warmer climates, which causes weakened extratropical westerly jet and altered extratropical waveguide of planetary-scale stationary waves. After ∼40 Ma, Earth climate became much colder, entering into the icehouse climate. Thus, the PNA pattern is close to the present state.