Saved in:
Bibliographic Details
Main Authors: Kaczmarczyk, Szymon, Koza, Filip, Śnieżek, Damian, Matyka, Maciej
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.20011
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913606787923968
author Kaczmarczyk, Szymon
Koza, Filip
Śnieżek, Damian
Matyka, Maciej
author_facet Kaczmarczyk, Szymon
Koza, Filip
Śnieżek, Damian
Matyka, Maciej
contents We developed the off-lattice Eden model to simulate the growth of bacterial colonies in the three-dimensional geometry of a Petri dish. In contrast to its two-dimensional counterpart, our model takes a three-dimensional set of possible growth directions and employs additional constraints on growth, which are limited by access to the nutrient layer. We rigorously tested the basic off-lattice Eden implementation against literature data for a planar cluster. We then extended it to three-dimensional growth. Our model successfully demonstrated the non-trivial dependency of the cluster morphology, non-monotonous dependency of the cluster density, and power law of the thickness of the boundary layer of clusters as a function of the nutrient layer height. Moreover, we revealed the fractal nature of all the clusters by investigating their fractal dimensions. Our density results allowed us to estimate the basic transport properties, namely the permeability and tortuosity of the bacterial colonies.
format Preprint
id arxiv_https___arxiv_org_abs_2406_20011
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Cauliflower shapes of bacterial clusters in the off-lattice Eden model for bacterial growth in a Petri dish with an agar layer
Kaczmarczyk, Szymon
Koza, Filip
Śnieżek, Damian
Matyka, Maciej
Computational Physics
Biological Physics
We developed the off-lattice Eden model to simulate the growth of bacterial colonies in the three-dimensional geometry of a Petri dish. In contrast to its two-dimensional counterpart, our model takes a three-dimensional set of possible growth directions and employs additional constraints on growth, which are limited by access to the nutrient layer. We rigorously tested the basic off-lattice Eden implementation against literature data for a planar cluster. We then extended it to three-dimensional growth. Our model successfully demonstrated the non-trivial dependency of the cluster morphology, non-monotonous dependency of the cluster density, and power law of the thickness of the boundary layer of clusters as a function of the nutrient layer height. Moreover, we revealed the fractal nature of all the clusters by investigating their fractal dimensions. Our density results allowed us to estimate the basic transport properties, namely the permeability and tortuosity of the bacterial colonies.
title Cauliflower shapes of bacterial clusters in the off-lattice Eden model for bacterial growth in a Petri dish with an agar layer
topic Computational Physics
Biological Physics
url https://arxiv.org/abs/2406.20011