Motor cognition involves the process of planning and executing goal–directed movements and recognizing, anticipating, and interpreting others’ actions. Motor cognitive functions are generally associated with the presence of a brain and are ascribed only to humans and other animal species. A growing body of evidence suggests that aneural organisms, like climbing plants, exhibit behaviors driven by the intention to achieve goals, challenging our understanding of cognition. Here, we propose an inclusive perspective under motor cognition to explain climbing plants’ behavior. We will first review our empirical research based on kinematical analysis to understand movement in pea plants. Then, we situate this empirical research within the current theoretical debate aimed at extending the principles of cognition to aneural organisms. A novel comparative perspective that considers the perception–action cycle, involving transforming perceived environmental elements into intended movement patterns, is provided.

Motor cognition in plants: from thought to real experiments

Bonato, Bianca;Castiello, Umberto
;
Guerra, Silvia;Wang, Qiuran
2024

Abstract

Motor cognition involves the process of planning and executing goal–directed movements and recognizing, anticipating, and interpreting others’ actions. Motor cognitive functions are generally associated with the presence of a brain and are ascribed only to humans and other animal species. A growing body of evidence suggests that aneural organisms, like climbing plants, exhibit behaviors driven by the intention to achieve goals, challenging our understanding of cognition. Here, we propose an inclusive perspective under motor cognition to explain climbing plants’ behavior. We will first review our empirical research based on kinematical analysis to understand movement in pea plants. Then, we situate this empirical research within the current theoretical debate aimed at extending the principles of cognition to aneural organisms. A novel comparative perspective that considers the perception–action cycle, involving transforming perceived environmental elements into intended movement patterns, is provided.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3505461
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