Influence of Biofilms on Porous Media Hydrodynamics - Porous Media: Applications in Biological Systems and Biotechnology

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Morales, C. F. L., Strathmann, M., and Flemming, H. C. (2007). Influence

of biofilms on the movement of colloids in porous media. Implications for

colloid facilitated transport in subsurface environments. Water Research ,

41 :2059-2068.

Muris, M., Delolme, C., Gaudet, J. P., and Spadini, L. (2005). Assessment

of biofilm destabilisation and consequent facilitated zinc transport. Water

Science and Technology , 51 :21-28.

Nam, T. K., Timmons, M. B., Montemagno, C. D., and Tsukuda, S. M. (2000).

Biofilm characteristics as affected by sand size and location in fluidized bed

vessels. Aquacultural Engineering , 22 :213-224.

Nambi, I. M., Werth, C. J., Sanford, R. A., and Valocchi, A. J. (2003). Pore-

scale analysis of anaerobic halorespiring bacterial growth along the trans-

verse mixing zone of an etched silicon pore network. Environmental Science

& Technology , 37 :5617-5624.

Neu, T. R., Kuhlicke, U., and Lawrence, J. R. (2002). Assessment of fluo-

rochromes for two-photon laser scanning microscopy of biofilms. Applied

and Environmental Microbiology , 68 :901-909.

Nguyen, V. T., Morgenroth, E., and Eberl, H. J. (2005). A mesoscale model for

hydrodynamics in biofilms that takes microscopic flow effects into account.

Water Science and Technology , 52 :167-172.

Nyman, J. L., Caccavo Jr., F., Cunningham, A. B., and Gerlach, R. (2002).

Biogeochemical elimination of chromium (VI) from contaminated water.

Bioremediation Journal , 6 :39-55.

O'Hannesin, S. F. and Gillham, R. W. (1998). Long-term performance of

an in situ “iron wall” for remediation of VOCs. Ground Water , 36 :

164-170.

O'Toole, G., Kaplan, H. B., and Kolter, R. (2000). Biofilm formation as micro-

bial development. Annual Review of Microbiology , 54 :49-79.

Ochiai, N., Kraft, E. L., and Selker, J. S. (2006). Methods for colloid transport

visualization in pore networks. Water Resources Research , 42 . W12S06. doi:

10.1029/2006WR004961.

Okabe, S., Itoh, T., Satoh, H., and Watanabe, Y. (1999). Analyses of spa-

tial distributions of sulfate-reducing bacteria and their activity in aer-

obic wastewater biofilms. Applied and Environmental Microbiology, 65 :

5107-5116.

Okabe, S., Kuroda, H., and Watanabe, Y. (1998). Significance of biofilm struc-

ture on transport of inert particulates into biofilms. Water Science and

Technology , 38 :163-170.

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