1. [1] Mortensen BM, Haber MJ, DeJong JT, Caslake LF, Nelson DC. Effects of environmental factors on microbial induced calcium carbonate precipitation. Journal of applied microbiology. 2011;111(2):338-49. [2] van Paassen L. Biogrout, ground improvement by microbial induced carbonate precipitation, Doctoral dissertation, Delft University of Technology, Delft. 2009. [3] DeJong JT, Mortensen BM, Martinez BC, Nelson DC. Bio-mediated soil improvement. Ecological Engineering. 2010;36(2):197-210. [4] Whiffin VS, van Paassen LA, Harkes MP. Microbial carbonate precipitation as a soil improvement technique. Geomicrobiology Journal. 2007 Aug 14;24(5):417-23. [5] Maleki Kakelar M, Ebrahimi S, Hosseini M. Improvement in soil grouting by biocementation through injection method. Asia‐Pacific Journal of Chemical Engineering. 2016;11(6):930-8. [6] Hammes F, Verstraete W. Key roles of pH and calcium metabolism in microbial carbonate precipitation. Reviews in environmental science and biotechnology. 2002;1(1):3-7. [7] Montoya BM, DeJong JT, Boulanger RW. Dynamic response of liquefiable sand improved by microbial-induced calcite precipitation. Géotechnique. 2013;63(4):302. [8] van Paassen LA, Ghose R, van der Linden TJ, van der Star WR, van Loosdrecht MC. Quantifying biomediated ground improvement by ureolysis: large-scale biogrout experiment. Journal of geotechnical and geoenvironmental engineering. 2010;136(12):1721-8. [9] Amidi S, Wang J. Surface treatment of concrete bricks using calcium carbonate precipitation. Construction and Building Materials. 2015;80:273-8. [10] Stabnikov V, Naeimi M, Ivanov V, Chu J. Formation of water-impermeable crust on sand surface using biocement. Cement and Concrete Research. 2011;41(11):1143-9. [11] Fujita Y, Taylor JL, Wendt LM, Reed DW, Smith RW. Evaluating the potential of native ureolytic microbes to remediate a 90Sr contaminated environment. Environmental science & technology. 2010;44(19):7652-8. [12] Washbourne CL, Renforth P, Manning DA. Investigating carbonate formation in urban soils as a method for capture and storage of atmospheric carbon. Science of the total environment. 2012;431:166-75. [13] Canakci H, Sidik W, Kilic IH. Effect of bacterial calcium carbonate precipitation on compressibility and shear strength of organic soil. Soils and Foundations. 2015;55(5):1211-21. [14] Maleki Kakelar M, Ebrahimi S, Asadzadeh F, Tabrizi ME. Performance of microbial-induced carbonate precipitation on wind erosion control of sandy soil. International journal of environmental science and technology. 2016;13(3):937-44. [15] Barkouki TH, Martinez BC, Mortensen BM, Weathers TS, De Jong JD, Ginn TR, Spycher NF, Smith RW, Fujita Y. Forward and inverse bio-geochemical modeling of microbially induced calcite precipitation in half-meter column experiments. Transport in Porous Media. 2011;90(1):23. [16] Harkes MP, Van Paassen LA, Booster JL, Whiffin VS, van Loosdrecht MC. Fixation and distribution of bacterial activity in sand to induce carbonate precipitation for ground reinforcement. Ecological Engineering. 2010;36(2):112-7. [17] DeJong JT, Fritzges MB, Nüsslein K. Microbially induced cementation to control sand response to undrained shear. Journal of Geotechnical and Geoenvironmental Engineering. 2006;132(11):1381-92. [18] Whiffin VS. Microbial CaCO3 precipitation for the production of biocement, Doctoral dissertation, Murdoch University, 2004. [19] Gohardani Z, Reza H, Moghanloo E, Badameh P, Rezaei S, Babaei V, Teimourian S. The Significant Association of the dupA and cagA genes of Helicobacter pylori with Peptic Ulcer. Journal of Human, Environment and Health Promotion. 2018;4(4):159-63. [20] Nemati M, Voordouw G. Modification of porous media permeability, using calcium carbonate produced enzymatically in situ. Enzyme and Microbial Technology. 2003;33(5):635-42. [21] Stocks-Fischer S, Galinat JK, Bang SS. Microbiological precipitation of CaCO3. Soil Biology and Biochemistry. 1999;31(11):1563-71. [22] Shooshpasha I, Shirvani RA. Effect of cement stabilization on geotechnical properties of sandy soils. Geomechanics and Engineering. 2015;8(1):17-31. [23] Das BM, Sobhan K. Principles of geotechnical engineering. Cengage learning; 2013. [24] Cheng L, Cord-Ruwisch R, Shahin MA. Cementation of sand soil by microbially induced calcite precipitation at various degrees of saturation. Canadian Geotechnical Journal. 2013;50(1):81-90. [25] Nemati M, Greene EA, Voordouw G. Permeability profile modification using bacterially formed calcium carbonate: comparison with enzymic option. Process Biochemistry. 2005; 40(2):925-33.

2. Effects of environmental factors on microbial induced calcium carbonate precipitation

3. Van Paassen LA. Biogrout, Ground Improvement by Microbial Induced Carbonate Precipitation [Ph. D. thesis]. Delft Univ Technol, Delft, The Netherlands. 2009.

4. Bio-mediated soil improvement

5. Microbial Carbonate Precipitation as a Soil Improvement Technique