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Persistence of bacteria and phages in a chemostat
Hal Smith, Horst Thieme
Mathematical and Statistical Sciences, School of (SoMSS)
CRESMET
Research output
:
Contribution to journal
›
Article
›
peer-review
29
Scopus citations
Overview
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Mathematics
Chemostat
78%
Bacteria
73%
Persistence
59%
Cell
29%
Adsorption
24%
Nutrients
24%
Infinite Delay
23%
Extinction
19%
Delay Differential Equations
19%
Model
19%
Infection
19%
Integro-differential Equation
18%
Laplace transform
18%
Formulation
12%
Engineering & Materials Science
Chemostats
100%
Bacteriophages
93%
Bacteria
66%
Integrodifferential equations
17%
Nutrients
14%
Laplace transforms
14%
Adsorption
11%
Differential equations
10%
Agriculture & Biology
phages
54%
differential equation
38%
bacteria
32%
latent period
18%
bacteriophages
14%
nutrient uptake
14%
extinction
13%
adsorption
13%
predation
11%
cells
9%
infection
7%
Medicine & Life Sciences
Bacteriophages
58%
Bacteria
40%
Adsorption
12%
Infections
5%