A New Mathematical Framework for Atmospheric Blocking Events
Valerio Lucarini, Andrey Gritsun

TL;DR
This paper introduces a new mathematical framework linking atmospheric blocking events to unstable periodic orbits, revealing their instability characteristics and implications for predictability and climate modeling.
Contribution
It proposes a novel approach connecting blocking events to unstable periodic orbits, explaining their dynamics and predictability variations in a simplified atmospheric model.
Findings
Blockings are associated with highly unstable atmospheric states.
Predictability varies during blocking phases, differing between Atlantic and Pacific.
Unstable periodic orbits explain the onset and decay of blocking events.
Abstract
We use a simple yet Earth-like atmospheric model to propose a new framework for understanding the mathematics of blocking events. Analysing error growth rates along a very long model trajectory, we show that blockings are associated with conditions of anomalously high instability of the atmosphere. Additionally, the lifetime of a blocking is positively correlated with the intensity of such an anomaly, against intuition. In the case of Atlantic blockings, predictability is especially reduced at the onset and decay of the blocking, while a relative increase of predictability is found in the mature phase, while the opposite holds for Pacific blockings, for which predictability is lowest in the mature phase. We associate blockings to a specific class of unstable periodic orbits (UPOs), natural modes of variability that cover the attractor of the system. The UPOs differ substantially in…
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Taxonomy
TopicsClimate variability and models · Complex Systems and Time Series Analysis · Ecosystem dynamics and resilience
