Abstract Contemporary biology frequently explains physiological regulation through mechanisms, pathways, and adaptive processes. Yet biological systems continuously face competing demands that cannot all be maximized simultaneously. Survival, reliability, efficiency, adaptability, variability, and energetic economy often exist in tension with one another. This paper proposes a conceptual systems hypothesis in which biological regulation necessarily operates through prioritization. The central proposition is that whenever competing demands exceed available resources, organisms must preserve certain variables at the expense of others. Hierarchical regulation is therefore presented not as a special feature of physiology, but as a necessary consequence of operating under uncertainty. Within this framework, chronic stabilization, adaptive option loss, respiratory recruitment, and functional instability are interpreted as potential outcomes of biological trade-offs rather than independent failures. Chronic dysfunction may emerge not because regulation breaks down, but because regulation continues to protect higher-priority objectives under persistent constraint. If correct, the study of chronic physiology may require greater attention not only to what deteriorates, but also to what the organism is attempting to preserve.
Israel Don (Fri,) studied this question.