Branching principles of animal and plant networks identified by combining extensive data, machine learning, and modeling

Branching principles of animal and plant networks identified by combining extensive data, machine learning, and modeling

Branching in vascular networks and in overall organismic form is one of the most common and ancient features of multicellular plants, fungi, and animals. By combining machine-learning techniques with new theory that relates vascular form to metabolic function, we enable novel classification of diver...

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Veröffentlicht in:arXiv.org 2020-08
Hauptverfasser: Brummer, Alexander B, Lymperopoulos, Panagiotis, Shen, Jocelyn, Tekin, Elif, Bentley, Lisa P, Buzzard, Vanessa, Gray, Andrew, Oliveras, Imma, Enquist, Brian J, Savage, Van M
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Animals
Blood flow
Body size
Classification
Computational fluid dynamics
Dependence
Distribution management
Flow velocity
Fluid flow
Machine learning
Mapping
Medical imaging
Metabolism
Networks
Organs
Prognosis
Quantitative Biology - Quantitative Methods
Scaling
Torso
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Beschreibung
Zusammenfassung:Branching in vascular networks and in overall organismic form is one of the most common and ancient features of multicellular plants, fungi, and animals. By combining machine-learning techniques with new theory that relates vascular form to metabolic function, we enable novel classification of diverse branching networks--mouse lung, human head and torso, angiosperm and gymnosperm plants. We find that ratios of limb radii--which dictate essential biologic functions related to resource transport and supply--are best at distinguishing branching networks. We also show how variation in vascular and branching geometry persists despite observing a convergent relationship across organisms for how metabolic rate depends on body mass.
ISSN:2331-8422
DOI:10.48550/arxiv.1903.04642