A chance to “cure” local climate systems and reconcile humanity with Nature

Abstract

Abstract Sustainable development becomes illusive when the observed reality demonstrates extraordinary oscillations beyond habitual seasonal patterns. Sound estimations on climate destabilizations and their negative consequences as well as attempts to return to desirable seasons remain endless disputable until the uncertainties and oddities of local climate dynamics remain unclear. Per se, the clarification requires a physical meaning of the so-called interannual variability. At the same time, valid evidence to such point can be achieved only if there is a dynamical system describing local climate dynamics in both weather and climate terms simultaneously. Nothing success to satisfy this requirement existed before the rule of modes was discovered in 2014 (Kolokolov & Monovskaya) by the processing of temperature observations under the hypothesis that a local climate system represents a solar energy converter obeyed the astronomic-based hysteresis control with double synchronization. After, this hypothesis was verified completely and developed into the regulatory theory of local climate dynamics to analyze nonlinear stationary and nonstationary processes taking into account regularities of bifurcation scenarios and regulatory responses. The paper focuses on the aspects of this theory connecting with seasonal evolution rapidly and individually developing in local climate due to anthropogenic destruction of ecosystem equilibrium. In other words, Nature is the Great Dictator demanding from men to obey undeviatingly physical laws, among which “controlled chaos” and “democratic reforms” are absent. In practical application, it means that local climate systems need urgently careful cure to slow down global ecosystem collapse and to get a chance to reconcile humanity with Nature. The paper seems to be interesting to responsible researchers and practitioners oriented to efficient work to hold back from the destructive-for-human-activities transition towards a novel global climate.