The impacts of the AOC concentration on biofilm formation under higher shear force condition

The logistic growth model was applied in the study to evaluate the impacts of assimilable organic carbon (AOC) concentration on the growth characteristics of biofilm and bulk bacteria under high flow velocity condition. The experimental results showed that there existed a growth and decline relation...

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Published inJournal of biotechnology Vol. 111; no. 2; pp. 155 - 167
Main Authors Tsai, Y.P, Pai, T.Y, Qiu, J.M
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.07.2004
Amsterdam Elsevier
New York, NY
Subjects
Bacterial Physiological Phenomena
Biofilm
Biofilms - growth & development
Biological and medical sciences
Bioreactors - microbiology
Biotechnology
Carbon - metabolism
Cell Culture Techniques - methods
Cell Proliferation
Computer Simulation
Fundamental and applied biological sciences. Psychology
Growth rate
HPC
Logistic growth model
Mechanotransduction, Cellular - physiology
Models, Biological
Shear Strength
Specific growth rate
Stainless steel
Water Microbiology
Water Purification
Biofilm
HPC
Logistic growth model
Growth rate
Stainless steel
Specific growth rate
Shear
Growth
Models
Concentration
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Abstract The logistic growth model was applied in the study to evaluate the impacts of assimilable organic carbon (AOC) concentration on the growth characteristics of biofilm and bulk bacteria under high flow velocity condition. The experimental results showed that there existed a growth and decline relation between biofilm and bulk bacteria at the low (0.05 mg/L) and medium (0.5 mg/L) AOC levels. Increasing the AOC concentration up to 1.0 mg/L, it resulted in high amounts of biofilm and bulk bacteria simultaneously. Although the carrying capacity of biofilm bacteria at the medium condition of AOC level was substantially reduced, the specific growth rate (GR) of biofilm bacteria was largest at this condition. It showed that the reduction of biofilm bacteria quantity did not represent the suppression of bacterial growth. The quantity of bulk water bacteria was obviously dependent with the quantity of biofilm bacteria and the increase of free bacteria with time in networks was mainly due to the growth and detachment of biofilm bacteria, not due to the growth of free bacteria themselves. The maximum growth rate of biofilm bacteria was increased upon increasing the AOC level. It indicated that the AOC level was an important factor affecting the growth of biofilm bacteria.
AbstractList The logistic growth model was applied in the study to evaluate the impacts of assimilable organic carbon (AOC) concentration on the growth characteristics of biofilm and bulk bacteria under high flow velocity condition. The experimental results showed that there existed a growth and decline relation between biofilm and bulk bacteria at the low (0.05 mg/L) and medium (0.5 mg/L) AOC levels. Increasing the AOC concentration up to 1.0 mg/L, it resulted in high amounts of biofilm and bulk bacteria simultaneously. Although the carrying capacity of biofilm bacteria at the medium condition of AOC level was substantially reduced, the specific growth rate (GR) of biofilm bacteria was largest at this condition. It showed that the reduction of biofilm bacteria quantity did not represent the suppression of bacterial growth. The quantity of bulk water bacteria was obviously dependent with the quantity of biofilm bacteria and the increase of free bacteria with time in networks was mainly due to the growth and detachment of biofilm bacteria, not due to the growth of free bacteria themselves. The maximum growth rate of biofilm bacteria was increased upon increasing the AOC level. It indicated that the AOC level was an important factor affecting the growth of biofilm bacteria.
The logistic growth model was applied in the study to evaluate the impacts of assimilable organic carbon (AOC) concentration on the growth characteristics of biofilm and bulk bacteria under high flow velocity condition. The experimental results showed that there existed a growth and decline relation between biofilm and bulk bacteria at the low (0.05 mg/L) and medium (0.5 mg/L) AOC levels. Increasing the AOC concentration up to 1.0 mg/L, it resulted in high amounts of biofilm and bulk bacteria simultaneously. Although the carrying capacity of biofilm bacteria at the medium condition of AOC level was substantially reduced, the specific growth rate (GR) of biofilm bacteria was largest at this condition. It showed that the reduction of biofilm bacteria quantity did not represent the suppression of bacterial growth. The quantity of bulk water bacteria was obviously dependent with the quantity of biofilm bacteria and the increase of free bacteria with time in networks was mainly due to the growth and detachment of biofilm bacteria, not due to the growth of free bacteria themselves. The maximum growth rate of biofilm bacteria was increased upon increasing the AOC level. It indicated that the AOC level was an important factor affecting the growth of biofilm bacteria.
Author Tsai, Y.P
Pai, T.Y
Qiu, J.M
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Issue 2
Keywords Biofilm
HPC
Logistic growth model
Growth rate
Stainless steel
Specific growth rate
Shear
Growth
Models
Concentration
Language English
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Snippet The logistic growth model was applied in the study to evaluate the impacts of assimilable organic carbon (AOC) concentration on the growth characteristics of...
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SubjectTerms Bacterial Physiological Phenomena
Biofilm
Biofilms - growth & development
Biological and medical sciences
Bioreactors - microbiology
Biotechnology
Carbon - metabolism
Cell Culture Techniques - methods
Cell Proliferation
Computer Simulation
Fundamental and applied biological sciences. Psychology
Growth rate
HPC
Logistic growth model
Mechanotransduction, Cellular - physiology
Models, Biological
Shear Strength
Specific growth rate
Stainless steel
Water Microbiology
Water Purification
Title The impacts of the AOC concentration on biofilm formation under higher shear force condition
URI https://dx.doi.org/10.1016/j.jbiotec.2004.04.005
https://www.ncbi.nlm.nih.gov/pubmed/15219402
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https://search.proquest.com/docview/66659606
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