Effect of shear stress and growth conditions on detachment and physical properties of biofilms
Detachment is one of the major processes determining the physical structure and microbial functionalities of biofilms. To predict detachment, it is necessary to take the mechanical properties of the biofilm and the effect of both hydrodynamic and growth conditions into account. In this work, experim...
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sg-ntu-dr.10356-964422020-03-07T11:43:44Z Effect of shear stress and growth conditions on detachment and physical properties of biofilms Paul, Etienne. Ochoa, Juan Carlos. Pechaud, Yoan. Liu, Yu. Liné, Alain. School of Civil and Environmental Engineering Detachment is one of the major processes determining the physical structure and microbial functionalities of biofilms. To predict detachment, it is necessary to take the mechanical properties of the biofilm and the effect of both hydrodynamic and growth conditions into account. In this work, experiments were conducted with biofilms developed under various shear stresses and with various substrate natures. In addition, two cases were considered in order to differentiate between the effect of hydrodynamic factors and growth factors: the biofilms were directly grown under the targeted shear stress (τ) condition or they were precultivated under very low shear stress (0.01 Pa) and then exposed to high shear stress in the range of 0.1–13 Pa. An exponential and asymptotic decrease of the biofilm thickness and mass with increasing τ was observed in both cases. On contrary density, expressed as the biofilm dry mass on a known substratum divided by the average thickness increased with τ. Denitrifying biofilms always showed greater thickness and density than oxic biofilms. These results showed the presence of a compact basal layer that resisted shear stresses as high as 13 Pa whatever the culture conditions. Above this basal layer, the cohesion was lower and depended on the shear stress applied during biofilm development. The application of shear stress to the biofilms resulted in both detachment and compression, but detachment prevailed for the upper part of the biofilms and compression prevailed for the basal layers. A model of biofilm structure underlying the stratified character of this aggregate is given in terms of density and cohesion. 2013-06-12T06:03:37Z 2019-12-06T19:30:53Z 2013-06-12T06:03:37Z 2019-12-06T19:30:53Z 2012 2012 Journal Article Paul, E., Ochoa, J. C., Pechaud, Y., Liu, Y., & Liné, A. (2012). Effect of shear stress and growth conditions on detachment and physical properties of biofilms. Water Research, 46(17), 5499-5508. 0043-1354 https://hdl.handle.net/10356/96442 http://hdl.handle.net/10220/10253 10.1016/j.watres.2012.07.029 en Water research © 2012 Elsevier Ltd. |
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Detachment is one of the major processes determining the physical structure and microbial functionalities of biofilms. To predict detachment, it is necessary to take the mechanical properties of the biofilm and the effect of both hydrodynamic and growth conditions into account. In this work, experiments were conducted with biofilms developed under various shear stresses and with various substrate natures. In addition, two cases were considered in order to differentiate between the effect of hydrodynamic factors and growth factors: the biofilms were directly grown under the targeted shear stress (τ) condition or they were precultivated under very low shear stress (0.01 Pa) and then exposed to high shear stress in the range of 0.1–13 Pa. An exponential and asymptotic decrease of the biofilm thickness and mass with increasing τ was observed in both cases. On contrary density, expressed as the biofilm dry mass on a known substratum divided by the average thickness increased with τ. Denitrifying biofilms always showed greater thickness and density than oxic biofilms. These results showed the presence of a compact basal layer that resisted shear stresses as high as 13 Pa whatever the culture conditions. Above this basal layer, the cohesion was lower and depended on the shear stress applied during biofilm development. The application of shear stress to the biofilms resulted in both detachment and compression, but detachment prevailed for the upper part of the biofilms and compression prevailed for the basal layers. A model of biofilm structure underlying the stratified character of this aggregate is given in terms of density and cohesion. |
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School of Civil and Environmental Engineering |
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School of Civil and Environmental Engineering Paul, Etienne. Ochoa, Juan Carlos. Pechaud, Yoan. Liu, Yu. Liné, Alain. |
| format |
Article |
| author |
Paul, Etienne. Ochoa, Juan Carlos. Pechaud, Yoan. Liu, Yu. Liné, Alain. |
| spellingShingle |
Paul, Etienne. Ochoa, Juan Carlos. Pechaud, Yoan. Liu, Yu. Liné, Alain. Effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| author_sort |
Paul, Etienne. |
| title |
Effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| title_short |
Effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| title_full |
Effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| title_fullStr |
Effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| title_full_unstemmed |
Effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| title_sort |
effect of shear stress and growth conditions on detachment and physical properties of biofilms |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/96442 http://hdl.handle.net/10220/10253 |
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1681043466563354624 |