De-anthropomorphizing the mind: life as a cognitive spectrum in a unified framework for biological minds
Frontiers in Systems Neuroscience January 22, 2026 Peer reviewed DOI: 10.3389/fnsys.2026.1730097 via OpenAlex
Summary
Cognition is not limited to organisms with nervous systems but is an organizational property of all living systems, from single cells to complex animals. Empirical evidence shows learning, memory, and goal-directed behavior in organisms without brains, such as plants and planarians. This paper proposes an info-computational (ICON) framework where cognition arises from information embodied in physical structures and interactions with the environment. These processes begin at life's origin and become more integrated with increasing biological complexity, offering testable implications for basal cognition, developmental biology, and embodied artificial systems.
Study at a glance
| Design | theoretical or philosophical paper |
|---|---|
| Key finding | Cognition is an organizational property of all living systems, grounded in embodied information and ongoing environmental interactions, present from the onset of life. |
Abstract
Cognition, sentience, intelligence, awareness, and mind are often treated as distinct phenomena that emerge only at higher levels of biological organization, typically associated with nervous systems or human cognition. However, empirical research increasingly demonstrates learning, memory, adaptive behavior, and goal-directed regulation across a wide range of living systems, including single cells, tissues, and organisms without brains. This paper proposes a unifying framework in which cognition is understood as an organizational property of living systems, grounded in information embodied in their physical structures and in their ongoing interactions with the environment. Within this info-computational (ICON) perspective, living systems engage in behavior, learning, and anticipation by dynamically transforming embodied information through distributed, physically realized processes that support viability and self-maintenance. These processes are present from the onset of life and become progressively more integrated and temporally extended with increasing biological organization. The framework provides explanatory continuity across biological scales and clarifies how complex forms of cognition, awareness, and mind arise as elaborations of basic life-regulatory dynamics. It generates empirically grounded, testable implications for basal cognition, developmental biology, and embodied artificial systems, in the domains such as morphogenetic regulation, bioelectric control, and embodied physical architectures where its implications can be tested.