Abstract
Two major climatic phenomena that occurred during the Holocene are interpreted from the resonance in subharmonic modes of long-period Rossby waves winding around the North Atlantic gyre, the so-called gyral Rossby waves (GRWs). These are, on the one hand, the change in atmospheric circulation that occurred in the North Atlantic in the middle Holocene, and, on the other hand, the occurrence of abrupt cooling events more frequently than what is generally accepted. The amplitude of GRWs is deduced by filtering, within bands characteristic of various subharmonic modes, climate records from the Greenland ice sheet, pollen, and tree rings in northern Fennoscandia, and from two Norwegian glaciers in northern Folgefonna and on the Lyngen peninsula. While the subharmonic modes reflect the acceleration/deceleration phases of the western boundary current, an anharmonic mode is evidenced in the 400–450 year band. Abrupt cooling events of the climate are paced by this anharmonic mode while the western boundary current is decelerating, and the northward heat advection of air favors the melting of the pack ice. Then, the current of the northernmost part of the North Atlantic gyre cools before branching off to the north, which alters its buoyancy. On the other hand, according to high subharmonic modes, high-pressure systems prevailed over the North Atlantic in the first half of the Holocene while low-pressure systems resulted from baroclinic instabilities of the atmosphere dominate during the second half, favoring the growth of glaciers in Scandinavia by a better snowfall in winter and cooler summers.
Highlights
The aim of this work is to show how the evolution of glaciers reflects the subharmonic modes of the North Atlantic gyre, so that the mechanisms involved in teleconnections can be revealed, essentially the change in the atmospheric circulation over the North Atlantic from the mid-Holocene, the successive abrupt cooling events that have occurred during the Holocene, including Bond events such as the Late Antique Little Ice Age (LALIA) and the Little Ice Age (LIA) [13,18,19,20]
Resulting from an anharmonic oscillation of the climate system in northern Europe, they presumably reflect the cooling of the current of the northernmost part of the North Atlantic gyre
This causes a reduction in its buoyancy while the western boundary current is slowing down because of fresh water, resulting from melting of the pack ice promoted by the northward heat advection of air
Summary
The Climate System Is Subject to Long-Period Resonantly Forced Rossby Waves. The sensitivity of Arctic systems to climate changes during the Holocene is recognized as resulting from solar and orbital forcing [1]. The impact of volcanic eruptions on the climate system is too short to change it over very long periods of time. These reasons given are indicative of our ignorance of the mechanisms underlying climate variability. The causal relationships between the radiative forcing and the response of the climate system reveal strong non-linearities that suggest resonance phenomena: the amplitude of the response of the climate system varies greatly depending on the period of forcing
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