Self‐organization of/in hierarchically structured systems

Abstract

Scalar hierarchies represent the structure of the world of matter in motion, the overall extensive system. Subsystems within this undergo changes that can be dichotomized into development and evolution (individuation). At a higher scalar level these modes of change are united under the rubric ‘self‐organization’. Development finds a very general, indeed, lawful description in non‐equilibrium thermodynamics discourse. Subsystems in the scalar hierarchical world are all dissipative structures. In their development at least living dissipative structures traverse a specification hierarchy of increasingly intensive being. At a higher temporal scalar level, developing dissipative structures form ontogenetic trajectories, the seat of self‐organization. At these higher scalar levels ontogenetic trajectories multiply to fill space as the dissipative structures that make them up access more and more geographical coordinates in a thrust outward toward what can be called a virtual thermodynamic equilibrium.