References
- Chun, B. S. (2010), "Final Report about A Study on the Evaluation on Application of River Bank of Con-a Method", Hanyang University, pp.1-15.
- Clough, J. M., Peet, M. M., and Kramer, P. J. (1981), "Effects of high atmospheric CO2 and sink size on rates of photosynthesis of a soybean cultivar", Plant Physiol. 67, pp.1007-1010. https://doi.org/10.1104/pp.67.5.1007
- Das, B. M. (1994), Principle of Geotechnical Engineering, 3rd edition, PWS Publishing Company, Boston, pp.67-87.
- David, M. S., Jeffry, J. F., Peter, G. H., and David, A. Z. (2005). "Priciples and Applications of Soil Microbiology" 2nd edition. Pearson Prentice Hall, pp.33-50.
- DeJong, J. T., Fritzges, M. B., and Nulein, K. (2006), "Microbially Induced Cementation to Control Sand Response to Undrained Shear", Journal of Geotechnical and Geoenvironmental Engineering, pp. 1381-1392.
- Do, J. N., Lee, J. H., Kim, J. W., Kim, K. M., Lee, J. K., Kim, Y. S., and Chun, B. S. (2010), Effect of Strength Increase of the Ground Using Polysaccharide Environmentally Friendly Soil Stabilizer, 2010 Korean Geo-Environmental Society Fall Conference, pp.97-101.
- Ghosh, P., Mandal, s., Chattopadhyay, B. D., and Pal, S. (2005), "Use of microorganism to improve the strength of cement mortar", Cement Concrete Research, Vol.35, No.10, pp.1980-1983. https://doi.org/10.1016/j.cemconres.2005.03.005
- Ghosh, S., Biswas, M., Chattopadhyay, B. D., and Mandal, S. (2009), "Microbial activity on the microstructure of bacteria modified mortar", Cement and Concrete Composites, Vol.31, pp.93-98. https://doi.org/10.1016/j.cemconcomp.2009.01.001
- Hobbie, J. E., R. J. Daley, and S. Jasper, (1977), "Use of Nuclepore filters for counting bacteria by fluorescence microscopy", Appl., Environ., Microbiol., Vol.33, pp.1255-1228.
- Kim, S. T., Do, J. N., Jo, H. S., and Chun, B. S. (2011), "Effects of Ground Strength Increase using Polysaccharide Environmentally Friendly Soil Stabilizer", The Journal of KGES, Vol.12, No.11, pp.13-21.
- Kim, H. C. (2011), Cementation characteristcs of soil using Bacteria, Josun University Graduate school, Master's thesis, pp.1-15.
- Krebs, H. A. (1952), Symposium 3 (Citric Acid Cycle), 2nd Int., Congr. Biochem. Paris.
- Lipus, L. C. and Dobersek, D. (2007), "Influence of magnetic field on the aragonite precipitation", Chemical Engineering Science, Vol.62, pp.2089-2095. https://doi.org/10.1016/j.ces.2006.12.051
- Madigan, M. T. and Martinko, J. M. (2003), Brock biology of microorganisms, 11th ed., Prentice-Hall, Upper Saddle River, N.J.
- Nebel, H. and Epple, M. (2008), "Continuous Preparation of Calcite, Aragonite and Vaterite, and of Magnesium-Substituted Amorphous Calcium Carbonate (Mg-ACC)", Journal of Inorganic and General Chemistry, Vol.634, No.8, pp.45-57.
-
Osaki Corporation (2011), Construction manual for con-
$\alpha$ (translated from Japanese). Osaki Corporation. http://www.osaki-c.co.jp. accessed 1 February 2011. - Park, S. S., Kim, W. J., and Lee, J. C. (2011), Effect of Biomineralization on the Strength of Cemented Sands, Journal of KGS, Vol.27, No.5, pp.75-84. https://doi.org/10.7843/kgs.2011.27.5.075
- Ramakrishnan, V., Deo, K. S., Duke, E. F., and Bang, S. S. (1999), "SEM investigation of microbial calcite precipitation in cement", Proc. Of 21st International Conference on Cement Microscopy, Las Vegas, NV, pp.406-414.
- Ramakrishnan, V., Bang, S. S., and Deo, K. S. (1998), "A Novel Technique for Repairing Cracks in High Performance Concrete Using Bacteria", Proc. of The Int. Conf. on HPHSC, Perth, Australia, pp.597-618.
- Saxena, S. K. and Lastrico, R. M. (1978), "Static properties of lightly cemented sand", Journal of Geotech. Engerg. Div., ASCE, Vol.104, No.12, pp.1449-1465.
- Tittelboom, K. V., Belie, N. D., De Muynck, W., and Verstraete, W. (2010), "Use of bacteria to repair cracks in concrete", Cement and Concrete Research, Vol.40, pp.157-166. https://doi.org/10.1016/j.cemconres.2009.08.025