Regulator peculiarities to the adaptation and evolution of local climate dynamics

Abstract

The paper develops the regulator view on climate changes from the conceptual model of the energy converter under the hysteresis control with double synchronization (the so-called HDS-control) detailed by a reference adaptation. This model describes cause-and-effect relations between dynamic processes in weather, seasonal and climate terms and resolves the interannual variability problem. In this context, the principal reason to destroy rapidly the habitual local seasonal patterns seems to be connected with variation of parameters associated with the abilities of local ecosystems to influence on dynamics evolution and to "damp" transient overshoots generated by the HDS-control. Reconstructions made by processing the meteorological observations show that such destructions can be promoted by natural climate-related oscillations. The interpenetrating usage of both the bifurcation and control theories opens a way to understand why the recent local climate changes occur so stormy.