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Bayani Cardenas' Publications

You can find me on Researcher ID at:

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Peer-reviewed articles

 

2012

60. Janssen, F., M. B. Cardenas, A. H. Sawyer, T. Dammrich, J. Krietsch, and D. de Beer, A comparative experimental and multiphysics computational fluid dynamics study of coupled surface-subsurface flow in bedforms, submitted.

59. Chaudhary, K., M. B. Cardenas, W. Deng, and P. C. Bennett, Pore geometry effects on intra-pore viscous to inertial flows and effective hydraulic parameters, submitted. 

58. Kessler, A. J., R. N. Glud, M. B. Cardenas, M. Larsen, M. Bourke, and P. L. M. Cook, Quantifying denitrification in rippled permeable sands through combined flume experiments and modelling, submitted.

57. Sawyer, A. H., and M. B. Cardenas, Effect of large woody debris additions on hyporheic exchange and thermal dynamics in a losing stream, submitted. 

56. Deng, W., M. B. Cardenas, and P. C. Bennett, Pore scale snap-off of supercritical CO2 as residual trapping mechanism of CO2 sequestration, submitted.

55. Wolaver, B. D., L. J. Crossey, K. E. Karlstrom, J. L. Banner, M. B. Cardenas, C. Gutiérrez Ojeda, and J. M. Sharp, Identifying the origins of and pathways for spring waters in a semi-arid basin using He, Sr, and C isotopes: Cuatrociénegas Basin, Mexico, submitted.

54. Smith, V. B., C. H. David, M. B. Cardenas, and Z.-L. Yang, Potential for using present-day regional-scale climate, river network, and vegetation cover patterns in predicting response to decadal-scale climate change, submitted.

53. Nowinski, J. D., M. B. Cardenas, A. F. Lightbody, T. E. Swanson, and A. H. Sawyer, Hydraulics of hot spots during hot moments: floods and groundwater-surface water exchange in an experimental stream-aquifer, submitted.

52. Befus, K. M., M. B. Cardenas, J. B. Ong, and V. A. Zlotnik, Classification and delineation of groundwater-lake interactions in the Nebraska Sand Hills (USA) using quasi-3D electrical resistivity surveys, submitted.

51. Bingham, Q. G., B. T. Neilson, C. M. U. Neale, and M. B. Cardenas, Application of high resolution remotely sensed data for transient storage modeling parameter estimation, submitted.

50. Wang, L.M. B. Cardenas, W. Deng, and P. C. Bennett, Theory for dynamic longitudinal dispersion in fractures and rivers with Poiseuille flow, Geophysical Research Letters, in press.

49. Bardini, L., F. Boano, M. B. Cardenas, R. Revelli and L. Ridolfi, Nutrient cycling in bedform induced hyporheic zones, Geochimica Et Cosmochimica Acta, in press.

48. Sawyer, A. H., M. B. Cardenas, and J. Buttles, Hyporheic temperature dynamics and heat exchange near channel-spanning logs, Water Resources Research, 48, W01529, doi:10.1029/2011WR011200, 2012.

47. Cardenas, M. B., A. M. F. Lagmay, B. J. Andrews, R. S. Rodolfo, H. B. Cabria, P. B. Zamora, and M. R. Lapus, Terrestrial smokers: thermal springs due to hydrothermal convection of groundwater connected to surface water, Geophysical Research Letters, 39, L02403, doi:10.1029/2011GL050475, 2012.

2011

46. Chaudhary, K., M. B. Cardenas, W. Deng, and P. C. Bennett, The role of eddies inside pores in the transition from Darcy to Forchheimer flows, Geophysical Research Letters, 38, L24405, doi:10.1029/2011GL050214,  2011.

45. Swanson, T. E., and M. B. Cardenas, Ex-Stream: A MATLAB® program for calculating fluid flux through sediment-water interfaces based on steady and transient temperature profiles, Computers & Geosciences, 37, 1664-1669, doi:10.1016/j.cageo.2010.12.001, 2011.

44. Sawyer, A. H., M. B. Cardenas, and J. Buttles, Hyporheic exchange due to channel-spanning logs, Water Resources Research, 47, W08502, doi:10.1029/2011WR010484, 2011.

43. Senal, M. I. S., G. S. Jacinto, M. L. San Diego-McGlone, F. P. Siringan, P. B. Zamora, L. Soria, M. B. Cardenas, C. Villanoy, and O. Cabrera, Nutrient inputs from submarine groundwater discharge in Santiago Reef Flat, Bolinao, Northwestern Philippines, Marine Pollution Bulletin, 63(5-12), 195-200, doi:10.1016/j.marpolbul.2011.05.037, 2011.

42. Andrews, B. J., M. B. Cardenas, and P. C. Bennett, Analysis of turbulent non-isothermal mixing between a jet and cooler ambient water using thermal imagery, Geochemistry, Geophysics, Geosystems, 12, Q07022, doi:10.1029/2011GC003530, 2011.

41. Zlotnik, V. A., M. B. Cardenas, and D. Toundykov, Effects of multi-scale depth-dependent anisotropy on hyporheic and regional groundwater flow, Ground Water, 49(4), doi:10.1111/j.1745-6584.2010.00775.x, 2011.

40. Cardenas, M. B., C. M. U. Neale, C. Jaworowski, and H. Heasler, High-resolution mapping of river-hydrothermal water mixing: Yellowstone National Park, International Journal of Remote Sensing, 32(10), 2765 - 2777, doi: 10.1080/01431161003743215, 2011.

39. Gerecht, K. E., M. B. Cardenas, A. J. Guswa, A. H. Sawyer, T. E. Swanson, and J. D. Nowinski, Dynamics of hyporheic flow and heat transport across a bed-to-bank continuum in a large regulated river, Water Resources Research, 47, W03524, doi:10.1029/2010WR009794, 2011.

38. Cardenas, M. B., and H. S. Jiang, Wave-driven porewater and solute circulation through rippled elastic sediment under highly transient forcing, Limnology and Oceanography: Fluids and Environments, 1, 23-37, doi: 10.1215/21573698-1151658, 2011.

37. Cardenas, M. B., and M. S. Markowski, Geo-electrical imaging of hyporheic exchange and mixing of river water and groundwater in a large regulated river, Environmental Science and Technology, 45, 1407–1411, doi:10.1021/es103438a, 2011.

36. Nowinski, J. D., M. B. Cardenas, and A. F. Lightbody, Evolution of hydraulic conductivity in the floodplain of a meandering river due to hyporheic transport of fine materials, Geophysical Research Letters, 38, L01401, doi:10.1029/2010GL045819, 2011.

2010

35. Cardenas, M. B., Lessons from and assessment of Boussinesq aquifer modeling of a large fluvial island in a dam-regulated river, Advances in Water Resources, 33(11), 1359-1366, doi:10.1016/j.advwatres.2010.03.015, 2010.

34. Cardenas, M. B., and X. W. Jiang, Groundwater flow, transport and residence times through topography-driven basins with exponentially decreasing permeability and porosity, Water Resources Research, 46, W11538, doi:10.1029/2010WR009370, 2010.

33. Cardenas, M. B., P. B. Zamora, F. P. Siringan, M. R. Lapus, R. S. Rodolfo, G. S. Jacinto, M. L. San Diego-McGlone, C. L. Villanoy, O. Cabrera, and M. I. Senal, Linking regional sources and pathways for submarine groundwater discharge at a reef by electrical resistivity tomography, 222Rn, and salinity measurements, Geophysical Research Letters, 37, L16401, doi:10.1029/2010GL044066, 2010.

32. Swanson, T. E., and M. B. Cardenas, Diel heat transport within the hyporheic zone of a pool-riffle-pool sequence of a losing stream and evaluation of models for fluid flux estimation using heat, Limnology and Oceanography, 55(4), 1741-1754, doi:10.4319/lo.2010.55.4.1741, 2010.

31. Francis, B. A., L. K. Francis, and M. B. Cardenas, Water table dynamics and groundwater-surface water interactions during filling and draining of a large fluvial island due to dam-induced river stage fluctuations, Water Resources Research, 46, W07513, doi:10.1029/2009WR008694, 2010.

30. Cardenas, M. B., Thermal skin effect of pipes in streambeds and its implications on groundwater flux estimation using diurnal temperature signals, Water Resources Research, 46, W03536, doi:10.1029/2009WR008528, 2010 .

29. Jiang, X. W., L. Wan, M. B. Cardenas, S. Ge, and X. S. Wang, Simultaneous rejuvenation and aging of groundwater in topography-driven basins due to depth-decaying poromechanical properties, Geophysical Research Letters, 37, L05403, doi:10.1029/2010GL042387, 2010.

2009

28. Cardenas, M. B., Direct simulation of pore-level Fickian dispersion scale for transport through dense cubic packed spheres with vortices, Geochemistry, Geophysics, Geosystems, 10, Q12014, doi:10.1029/2009GC002593, 2009.

27. Cardenas, M. B., Stream-aquifer interactions and hyporheic exchange in gaining and losing sinuous streams, Water Resources Research, 45, W06429, doi:10.1029/2008WR007651, 2009.

26. Cardenas, M. B., D. T. Slottke, R. A. Ketcham, and J. M. Sharp, Jr., Effects of inertia and directionality on flow and transport in a fracture, Journal of Geophysical Research-Solid Earth, 114, B06204, doi:10.1029/2009JB006336, 2009.

25. Cardenas, M. B., A model for lateral hyporheic flow based on valley slope and channel sinuosity, Water Resources Research, 45, W01501, doi:10.1029/2008WR007442, 2009.

24. Dunckel, A. E., M. B. Cardenas, A. H. Sawyer, and P. C. Bennett, High-resolution in-situ thermal imaging of microbial mats at El Tatio Geyser, Chile shows coupling between community color and temperature, Geophysical Research Letters, 36, L23403, doi:10.1029/2009GL041366, 2009.

23. Sawyer, A. H., and M. B. Cardenas, Hyporheic flow and residence time distributions in heterogeneous cross-bedded sediment, Water Resources Research, 45, W08406, doi:10.1029/2008WR007632, 2009.

22. Sawyer, A. H., M. B. Cardenas, A. Bomar, and M. Mackey, Impact of dam operations on hyporheic exchange in the riparian zone of a regulated river, Hydrological Processes, 23(15), 2129-2137, doi:10.1002/hyp.7324, 2009.

2008

21. Cardenas, M. B., The effect of river bend morphology on flow and timescales of surface water-groundwater exchange across pointbars, Journal of Hydrology,  362, 1-2, doi:10.1016/j.jhydrol.2008.08.018, 134-141, 2008.

20. Cardenas, M. B., P. L. M. Cook, H. Jiang, and P. A. Traykovski, Constraining denitrification in permeable wave-influenced marine sediment using linked hydrodynamic and biogeochemical modeling, Earth and Planetary Science Letters, 275(1-2), 127-137, doi:10.1016/j.epsl.2008.08.016, 2008.

19. Cardenas, M. B., Three-dimensional vortices in single pores and their effects on transport, Geophysical Research Letters, 35, L18402, doi:10.1029/2008GL035343, 2008.

18. Cardenas, M. B., J. L. Wilson, and R. Haggerty, Residence time of bedform-driven hyporheic exchange, Advances in Water Resources, 31(10), 1382-1386, doi:10.1016/j.advwatres.2008.07.006, 2008.

17. Cardenas, M. B., Surface-ground water interface geomorphology leads to scaling of residence times, Geophysical Research Letters, 35, L08402, doi:10.1029/2008GL033753, 2008.

16. Cardenas, M. B., and M. N. Gooseff, Comparison of hyporheic flow under uncovered and covered channels based on linked surface-ground-water simulations, Water Resources Research, 44, W03418, doi:10.1029/2007WR006506, 2008.

15. Cardenas, M. B., J. W. Harvey, A. I. Packman, and D. T. Scott, Ground-based thermography of fluvial systems at low and high discharge reveals complex thermal heterogeneity driven by flow variation and bioroughness, Hydrological Processes, 22, 980-986, 2008.

14. Vivoni, E. R., A. J. Rinehart, L. A. Méndez-Barroso, C. A. Aragón, G. Bisht, M. B. Cardenas, E. Engle, B. A. Forman, M. D. Frisbee, H. A. Gutiérrez-Jurado, S.-H. Hong, T. H. Mahmood, K. Tai, and R. L. Wyckoff, Vegetation controls on soil moisture distribution in the Valles Caldera, New Mexico, during the North American Monsoon, Ecohydrology, 1(3), 225-238, doi:10.1002/eco.11, 2008.

2007

13. Cardenas, M. B., and J. L. Wilson, Thermal regime of sediments in channels under gaining and losing conditions, Journal of Geophysical Research -Biogeosciences, 112, G04013, doi:10.1029/2007JG000485, 2007.

12. Cardenas, M. B., and J. L. Wilson, Exchange across a sediment-water interface with ambient groundwater discharge, Journal of Hydrology, 346, 3-4, doi:10.1016/j.jhydrol.2007.08.019, 69-80, 2007.

11. Cardenas, M. B., and J. L. Wilson, The effects of current-bedform induced fluid flow on the thermal regime of sediments, Water Resources Research,43, W08431, doi:10.1029/2006WR005343, 2007.

10. Cardenas, M. B., and J. L. Wilson, Dunes, turbulent eddies, and interfacial exchange with permeable sediments, Water Resources Research, 43, W08412, doi:10.1029/2006WR005787, 2007.

9. Cardenas, M. B., D. T. Slottke, R. A. Ketcham, and J. M. Sharp, Jr., Navier-Stokes flow and transport simulations using real fractures shows heavy tailing due to eddies, Geophysical Research Letters, 34, L14404, doi:10.1029/2007GL030545, 2007.

8. Cardenas, M. B., Potential contribution of topography-driven regional groundwater flow to fractal stream chemistry: residence time distribution analysis of Toth flow, Geophysical Research Letters, 34, L05403, doi:10.1029/2006GL029126, 2007.

7. Cardenas, M. B., and J. L. Wilson, Hydrodynamics of coupled flow above and below a sediment-water interface with triangular bed forms: underflow case, Advances in Water Resources, 30, 301-313, doi:10.1016/j.advwatres.2006.06.009, 2007.

2006

6. Cardenas, M. B., Interactive comment on "Quantifying biologically and physically induced flow and tracer dynamics in permeable sediments" by F. J. Meysman et al., Biogeosciences Discussions, 3, S901-S908, 2006. (pdf)

5. Cardenas, M. B., and J. L. Wilson, The influence of ambient groundwater discharge on exchange zones induced by current–bedform interactions, Journal of Hydrology, 331, doi:10.1016/j.jhydrol.2006.05.012, 103-109, 2006.

4. Cardenas, M. B., and J. L. Wilson, Comment on “Flow resistance and bed form geometry in a wide alluvial channel” by Shu-Qing Yang, Soon-Keat Tan and Siow-Ying Lim, Water Resources Research, 42, W06601, doi:10.1029/2005WR004663, 2006.

Pre-2006

3. Cardenas, M. B., J. L. Wilson, and V. A. Zlotnik, Impacts of heterogeneity, bed forms, and stream curvature on subchannel hyporheic exchange, Water Resources Research, 40, W08307, doi: 10.1029/2004WR003008, 2004.

2. Cardenas, M. B., and V. A. Zlotnik, Three-dimensional model of modern channel bend deposits, Water Resources Research, 39(6), 1441, doi:10.1029/2002WR001383, 2003.

1. Cardenas, M. B., and V. A. Zlotnik, A simple constant-head injection test for streambed hydraulic conductivity estimation, Ground Water, 41(6), 867-871, 2003. (pdf).

Book chapters

Lawler, D., M. B. Cardenas, G. Old, and D. Sear, Geomorphology and Sediments of the Hyporheic Zone, In The Hyporheic Handbook: A handbook on the groundwater–surface water interface and hyporheic zone for environment managers, UK Environment Agency, pp 16-47, 2009.

Cardenas, M. B., and J. L. Wilson, Driving while under the influence: pumping-driven circulation under the influence of regional groundwater flow, in A New Focus on Groundwater–Seawater Interactions (Proceedings of Symposium HS1001 at IUGG2007, Perugia, July 2007), edited by Ward Sanford, Christian Langevin, Maurizio Polemio & Pavel Povinec. IAHS Publ. 312, 229-236, 2007.

Bayani Cardenas' dissertation

Cardenas, M. B., Dynamics of Fluids, Heat and Solutes Along Sediment-Water Interfaces: A Multiphysics Modeling Study, New Mexico Institute of Mining and Technology, 2006.
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