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Literature DB >> 27824465

Pruning to Increase Taylor Dispersion in Physarum polycephalum Networks.

Sophie Marbach^1,2, Karen Alim^1,3, Natalie Andrew^1,3, Anne Pringle⁴, Michael P Brenner¹.

Abstract

How do the topology and geometry of a tubular network affect the spread of particles within fluid flows? We investigate patterns of effective dispersion in the hierarchical, biological transport network formed by Physarum polycephalum. We demonstrate that a change in topology-pruning in the foraging state-causes a large increase in effective dispersion throughout the network. By comparison, changes in the hierarchy of tube radii result in smaller and more localized differences. Pruned networks capitalize on Taylor dispersion to increase the dispersion capability.

Entities: Species

Mesh：

Year: 2016 PMID： 27824465 DOI： 10.1103/PhysRevLett.117.178103

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Pruning to Increase Taylor Dispersion in Physarum polycephalum Networks.

Review 1. Fluid flows shaping organism morphology.

2. The role of topology and mechanics in uniaxially growing cell networks.

3. Mechanism of signal propagation in Physarum polycephalum.

4. Spatial transcriptomic and single-nucleus analysis reveals heterogeneity in a gigantic single-celled syncytium.

5. Substrate and cell fusion influence on slime mold network dynamics.

6. Dispersive transport dynamics in porous media emerge from local correlations.

7. Flow rate of transport network controls uniform metabolite supply to tissue.