Associate Professor, Colorado School of Mines
Colorado School of Mines
Mines - Colorado School Of Mines
PhD, Hydrogeology , Stanford University, 2005
Research Interests: 1) Hydrologic processes utilizing geophysical techniques, hydrologic tools, and mathematical simulation to improve predictive modeling; 2) Quantification of the "geophysical footprint" to constrain the operation of parameters controlling fluid flow and solute transport in various settings; 3) Fluid flow and contaminant transport in porous media and fractured rock as well as groundwater-surface-water interactions; 4) Water quality degradation and human behavior; 5) Imaging moisture dynamics in desert ecosystems; 6) Exploring changes in infiltration after fire; 7) Quantifying kinetics of iron reduction given electrical measurements.
Toward a conceptual model relating chemical reaction fronts to water flow paths in hills. Brantley Susan L., Marina Lebedeva, Victor Balashov, Kamini Singha, Pamela L. Sullivan, Gary Stinchcomb (2017): Geomorphology, vol 277, p 100-117
Quantifying the effects of wildfire on changes in soil properties by surface burning of soils from the Boulder Creek Critical Zone Observatory. Wieting, C., Ebel, B. A., Singha, K. (2017): Journal of Hydrology: Regional Studies Volume 13, October 2017, Pages 43-57
Examining diel patterns of soil and xylem moisture using electrical resistivity imaging. Mares, R., Barnard, H. R., Mao, D., Revil, A., Singha, K. (2016): Journal of Hydrology 536 (2016) 327–338
Oxidative Dissolution under the Channel Leads Geomorphological Evolution at the Shale Hills Catchment . Sullivan, P.L., Hynek, S., Gu, X., Singha, K., White, T.S., West, N., Kim, H., Kirby, E., Clarke, B.; Duffy, C.; Brantley, S.L. (2016): American Journal of Science, 316 (10): 981-1026
Hydrogeomorphic controls on hyporheic and riparian transport in two headwater mountain streams during base flow recession. Ward, A.S., Schmadel, N.M., Wondzell, S.M., Harman, C., Gooseff, M.N., and Singha, K. (2016): Water Resources Research
A field comparison of multiple techniques to quantify groundwater–surface-water interactions. González-Pinzón, R., Ward, A., Hatch, C., Wlostowski, A., Singha, K., Gooseff, M., Haggerty, R., Harvey, J., Cirpka, O., and Brock, J. (2015): Freshwater Science, 34(1) Cross-CZO
Geophysical imaging reveals topographic stress control of bedrock weathering. St. Clair, J., Moon, S., Holbrook, W.S., Perron, J.T., Riebe, C.S., Martel, S.J., Carr, B., Harman, C., Singha, K., and Richter, D. deB. (2015): Science 350: 534-538 Cross-CZO
Geophysical imaging reveals topographic stress control of bedrock weathering. St. Clair, J., S. Moon, W. S. Holbrook, J. T. Perron, C. S. Riebe, S. J. Martel, B. Carr, C. Harman, K. Singha, D. deB. Richter (2015): Science, 30 October 2015, Vol. 350, no. 6260, pp. 534-538 Cross-CZO National
Topographic stress and rock fracture: a two dimensional numerical model for arbitrary topography and preliminary comparison with borehole observations. Mirna Slim, J. Taylor Perron, Stephen J. Martel and Kamini Singha (2014): Earth Surface Processes and Landforms, 40(4):512–529
Quantifying Solute Transport at the Shale Hills Critical Zone Observatory. Kuntz, B., Rubin, S., Berkowitz, B., and Singha, K. (2011): Vadose Zone Journal 10:843-857
Papers and books that explicitly acknowledge a CZO grant are highlighted in PALE ORANGE.
Multi-disciplinary Insights in to the Effects of Vegetation Change on Hydrologic Partitioning (Invited). Brooks, P.D., Barnard, H.R., Biederman, J.A., Harpold, A., Singha, K., Swetnam, T.L., Tai, X. (2018): Abstract H21A-06 presented at 2018 AGU Fall Meeting, Washington, D.C., 10-14 Dec Cross-CZO
Aspect Controls on Bedrock Fracturing and Seismic Velocity within the Boulder Creek Critical Zone Observatory . Bandler, A., Magill, C., Hendricks, S., and Singha, K. (2015): H51R-06 Hydrogeophysical Characterization of the Critical Zone I, presented at 2015 Fall Meeting, AGU, San Francisco, CA, 14-18 Dec.
Three-dimensional topographic stress controls on bedrock fractures and landscape evolution. Moon, S., Perron, J.T., Martel, S., Holbrook, W.S., St. Clair, J., and Singha, K. (2015): EP33D-02 Landscape Evolution from a Critical Zone Science Perspective II, presented at 2015 Fall Meeting, AGU, San Francisco, CA, 14-18 Dec.
The interplay of regolith evolution and watershed hydrodynamics in a first order watershed. Sullivan P.L., Hynek, S., Gu, X., Singha, K., White, T., West, N., Kim, H., Clarke, B., Kirby, E., Duffy, C., and Brantley, S.L (2015): 2015 Goldschmidt Conference, Prague, CZ, 16-21 Aug
EP23E-3634 The Interplay of Regolith Evolution and Watershed Hydrodynamics on Shale Weathering Fluxes . Pamela Sullivan • Scott Hynek • Kamini Singha • Tim White • Xin Gu • Christopher Duffy • Susan Brantley (2014): 2014 AGU Annual Fall Meeting, San Francisco, CA, Dec 15-19th
Shale to Regolith Evolution: The Controls on Catchment Solute Fluxes . Sullivan PL, Goddéris Y, Shi Y, Singha K, Clarke B, Schott J, Duffy CJ, Brantley SL (2014): 2014 EGU General Assembly, Vienna | Austria | 27 April – 02 May
The interplay of regolith evolution and watershed hydrodynamics at Susquehanna Shale Hills CZO Critical Zone All Hands Meeting, Yosemite Park CA . Sullivan PL, Hynek S, Singha K, White T, Gu X, Russo T, Kim H, Duffy C, Clarke B, and Brantley SL. (2014): Presented at the NSF National Critical Zone Observatory Program All Hands Meeting, Yosemite, CA, 21-24 Sept., 2014
Geologic controls on fracture distributions within the Shale Hills Critical Zone Observatory. Singha, K., Clarke, B.A., Sullivan, P.L., Chattopadhyay, P.B., Brantley, S.L. (2013): Abstract H43L-08 presented at 2013 Fall Meeting, AGU, San Francisco, CA, 9-13 Dec.
Exploring controls on saline tracer movement within the hyporheic zone using finite-element modeling and electrical resistivity. Chattopadhyay, P. B., Singha, K., Gooseff, M.N. (2012): AGU Annual Fall Conference Proceedings
Fracture Patterns within the Shale Hills Critical Zone Observatory (Invited). Singha, K., White, T., Perron, J., Chattopadhyay, P.B., Duffy, C. (2012): AGU Annual Fall Conference Proceedings
Laboratory, Field and Modeling Analysis of Solute Transport Behavior at the Shale Hills Critical Zone Observatory. Kuntz, B.W., Rubin, S., Berkowitz, B., Singha, K., Toran, L. (2011): All Hands Meeting, Oracle, AZ, May, 2011
Using Groundwater Models to Understand the Effects of Fractures on the Transport of Solutes at the Shale Hills Critical Zone Observatory. Mercuri, M., Toran, L., Nyquist, J., Kuntz, B., Singha, K. (2011): GSA Annual Fall Meeting
Development of a summer field-based hydrogeology research experience for undergraduates. Singha, K. (2011): AGU Annual Fall Conference Proceedings Cross-CZO
Solute transport in shale and shale-derived soils at the Shale Hills CZO. Kuntz, B., Singha, K. (2009): AGU Annual Fall Conference Proceedings
Exploring Lithologic Controls on Solute Transport at the Shale Hills Critical Zone Observatory. Singha, K., Kuntz, B., Toran, L. (2009): AGU Annual Fall Conference Proceedings
11 Oct 2016 - CZO Newsletter CZNews: Fall 2016
04 Dec 2015 - Taking the Pulse of the Earth's Surface Systems In September of 2014, Laurel Larsen (UC Berkley), Elizabeth Hajek (Penn State), and others...