Journal article

The influence of fluid shear on the structure and material properties of sulphate-reducing bacterial biofilms

Dunsmore B, Jacobsen A, Hall-Stoodley L, Bass C, Lappin-Scott H, Stoodley P ...see all

Journal of Industrial Microbiology and Biotechnology, vol. 29, issue 6 (2002) pp. 347-353

  • 56


    Mendeley users who have this article in their library.
  • 47


    Citations of this article.
  • N/A


    ScienceDirect users who have downloaded this article.
Sign in to save reference


Biofilms of sulphate-reducing Desulfovibrio sp. EX265 were grown in square section glass capillary flow cells under a range of fluid flow velocities from 0.01 to 0.4 m/s (wall shear stress, tauw(,) from 0.027 to 1.0 N/m(2)). In situ image analysis and confocal scanning laser microscopy revealed biofilm characteristics similar to those reported for aerobic biofilms. Biofilms in both flow cells were patchy and consisted of cell clusters separated by voids. Length-to-width ratio measurements (I-c:w(c)) of biofilm clusters demonstrated the formation of more "streamlined" biofilm clusters (I-c:w(c)=3.03) at high-flow velocity (Reynolds number, Re, 1200), whereas at low-flow velocity (Re 120), the I-c:w(c) of the clusters was approximately 1 (I-c:w(c) of 1 indicates no elongation in-the flow direction). Cell clusters grown under high flow were more rigid and had a higher yield point (the point at which the biofilm began to flow like a fluid) than those established at low flow and some biofilm cell aggregates were able to relocate within a cluster, by travelling in the direction of flow, before attaching more firmly downstream.

Get free article suggestions today

Mendeley saves you time finding and organizing research

Sign up here
Already have an account ?Sign in

Find this document

Get full text


  • B C Dunsmore

  • A Jacobsen

  • L Hall-Stoodley

  • C J Bass

  • H M Lappin-Scott

  • P Stoodley

Cite this document

Choose a citation style from the tabs below

Save time finding and organizing research with Mendeley

Sign up for free