Author
Listed:
- Abhishek Sharma
(University of Glasgow)
- Dániel Czégel
(Arizona State University
Institute of Evolution, Centre for Ecological Research)
- Michael Lachmann
(The Santa Fe Institute)
- Christopher P. Kempes
(The Santa Fe Institute)
- Sara I. Walker
(Arizona State University
Arizona State University)
- Leroy Cronin
(University of Glasgow)
Abstract
Scientists have grappled with reconciling biological evolution1,2 with the immutable laws of the Universe defined by physics. These laws underpin life’s origin, evolution and the development of human culture and technology, yet they do not predict the emergence of these phenomena. Evolutionary theory explains why some things exist and others do not through the lens of selection. To comprehend how diverse, open-ended forms can emerge from physics without an inherent design blueprint, a new approach to understanding and quantifying selection is necessary3–5. We present assembly theory (AT) as a framework that does not alter the laws of physics, but redefines the concept of an ‘object’ on which these laws act. AT conceptualizes objects not as point particles, but as entities defined by their possible formation histories. This allows objects to show evidence of selection, within well-defined boundaries of individuals or selected units. We introduce a measure called assembly (A), capturing the degree of causation required to produce a given ensemble of objects. This approach enables us to incorporate novelty generation and selection into the physics of complex objects. It explains how these objects can be characterized through a forward dynamical process considering their assembly. By reimagining the concept of matter within assembly spaces, AT provides a powerful interface between physics and biology. It discloses a new aspect of physics emerging at the chemical scale, whereby history and causal contingency influence what exists.
Suggested Citation
Abhishek Sharma & Dániel Czégel & Michael Lachmann & Christopher P. Kempes & Sara I. Walker & Leroy Cronin, 2023.
"Assembly theory explains and quantifies selection and evolution,"
Nature, Nature, vol. 622(7982), pages 321-328, October.
Handle:
RePEc:nat:nature:v:622:y:2023:i:7982:d:10.1038_s41586-023-06600-9
DOI: 10.1038/s41586-023-06600-9
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Citations
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Cited by:
- Likun Cao & Ziwen Chen & James Evans, 2024.
"Modularity, Higher-Order Recombination, and New Venture Success,"
Papers
2405.15042, arXiv.org.
- Szymon Łukaszyk & Wawrzyniec Bieniawski, 2024.
"Assembly Theory of Binary Messages,"
Mathematics, MDPI, vol. 12(10), pages 1-31, May.
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