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2022

  • Mathieu, A., Cheng, Z., Chauchat, J., Bonamy, C., Hsu, T.-J. (2022) Numerical investigation of unsteady effects in oscillatory sheet flows, J. Fluid Mech., 943, A7.
  • Hsu, T.-J. (2022) Causality between fluid motions and bathymetric features, J. Fluid Mech., 936, F1.
  • Vowinckel, B., Zhao, K., Ye, L., Manning, A. J., Hsu, T.-J., Meiburg, E., Bai, B. (2022) Physics of cohesive sediment flocculation and transport: State-of-the-art experimental and numerical techniques, Sediment Transport – Recent Advances, Editor: Andrew James Manning. IntechOpen. DOI: 10.5772/intechopen.104094
  • Sogut, E., Hsu, T.-J., Farhadzadeh, A., (2022) Experimental and numerical investigations of solitary wave-induced non-equilibrium scour around structure of square cross-seciton on sandy berm, Coastal Engineering, 173, 104091.
  • Simpson, A. J., Shi, F., Jurisa, J. T., Honegger, D. A., Hsu, T.-J., & Haller, M. C. (2022). Observations and modeling of a buoyant plume exiting into a tidal cross-flow and exhibiting along-front instabilities. Journal of Geophysical Research: Oceans, 127, e2021JC017799.
  • Chauchat, J., Hurther, D., Revil-Baudard, T., Cheng, Z., Hsu, T.-J. (2022) Controversial turbulent Schmidt number value in particle-laden boundary layer flows, Phys. Rev. Fluid, 7, 014307.
  • Tsai, B., Mathieu, A., Montella, E. P., Hsu, T.-J., Chauchat, J. (2022) An Eulerian two-phase flow model investigation on scour onset and backfill of a 2D pipeline, European J. of Mech. B/Fluids, 91, 10-26.

2021

  • Innocenti, R. A., Feagin. R., Charbonneau, B. R., Figlus, J., Lomonaco, P., Wengrove, W., Puleo, J., Huff, T. P., Rafati, R., Hsu, T.-J., Moragues, M. V., Tsai*, B., Boutton, T., Pontiki, M., Smith, J., (2021) The effects of plant structure and flow properties on the physical response of coastal dune plants to wind and wave run-up, Estuarine, Coastal and Shelf Science, 261, 107556. 
  • Montella, E. P., Chauchat, J., Chareyre, B., Bonamy, C., Hsu, T.-J. (2021) A two-fluid model for immersed granular avalanches with dilatancy effects, J. Fluid Mech., 925, A13.
  • Sherwood C. R., van Dongeren A., Doyle, J., Hegermiller, C. A., Hsu, T.-J., Kalra, T. S., Olabarrieta, M., Penko, A. M., Rafati, Y., Roelvink, D., van der Lugt, M., Veeramony, J., Warner, J. C. (2022) Modeling morphodynamics of coastal response to extreme events – What shape are we in? Annual review of Marine Science, Vol. 14. https://doi.org/10.1146/annurev-marine-032221-090215
  • Salimi-Tarazouj, A., Hsu, T.-J., Traykovski, P., & Chauchat, J. (2021). Eulerian two-phase model reveals the importance of wave period in ripple evolution and equilibrium geometry. Journal of Geophysical Research: Earth Surface, 126, e2021JF006132.
  • Kim, Y., Kalligeris, N., Hsu, T.-J., Lynett, P. J., (2021) Large eddy simulation study of a wave-induced shallow-water monopolar vortex, Ocean Modelling, 162, 101796.
  • Dukhovskoy, D. S., Morey, S. L., Chassignet, E. P., Chen, X., Coles, V. J., Cui, L., Harris, C. K., Hetland, R., Hsu, T.-J., Manning, A. J, Stukel, M., Thyng, K. and Wang, J. (2021) Development of the CSOMIO coupled ocean-oil-sediment- biology model. Front. Mar. Sci. 8:629299. doi: 10.3389/fmars.2021.629299 
  • Ye, L., Manning A. J., Holyoke, J., Penaloza-Giraldo, J. A. and Hsu, T.-J. (2021) The role of biophysical stickiness on oil-mineral flocculation and settling in seawater. Front. Mar. Sci., 8:628827. doi: 10.3389/fmars.2021.628827
  • Han, Z., Horner-Devine, A. R., Ogston, A., Hsu, T.-J. (2021) The role of sand in wave boundary layers over primarily muddy seabeds, implications for wave-supported gravity flows, J. Geophys. Res., 126(5), e2020JC016621.
  • Rafati, Y., Hsu, T.-J., Elgar, S., Raubenheimer, R., Quataert, E., van Dongeren, A., (2021) Modeling the hydrodynamics and morphodynamics of sandbar migration events, Coastal Engineering, 166, 103885. `
  • Zhao, K., Pomes, F., Vowinckel, B., Hsu, T.-J., Bai, B., Meiburg, E. (2021) Flocculation of suspended cohesive particles in homogeneous isotropic turbulence, J. Fluid Mech., 921, A17.

2020

  • Nagel, T., Chauchat, J., Bonamy, C., Liu, X., Cheng Z., Hsu T.-J. (2020) Three-dimensional scour simulations with a two-phase flow model, Advances in Water Resources, 138, 103544.

  • Rafati, Y., Hsu, T.-J., Cheng, Z., Yu, X., Calantoni, J., (2020) Armoring and exposure effects on the wave-driven sediment transport, Continental Shelf Research, 211, 104291.

  • Salimi-Tarazouj, A., Hsu, T.-J., Traykovski, P., Cheng, Z., Chauchat, J. (2020) A numerical study of onshore ripple migration using a Eulerian two‐phase model, J. Geophys. Res. Oceans, in press. doi: 10.1029/2020JC016773

  • Zhao K., Vowinckel B., Hsu T.-J., Köllner, T., Bai B., Meiburg E. (2020) An efficient cellular flow model for cohesive particle flocculation in turbulence, J. Fluid Mech., 889. 10.1017/jfm.2020.79.

  • Yue L., Cheng& Z., Hsu T.-J., (2020) A turbulence-resolving numerical investigation of wave-supported gravity flows, J. Geophys. Res. Oceans, 125 (2). 10.1029/2019JC015220

  • Ye L., Manning A. J., Hsu, T.-J. (2020) Oil-Mineral Flocculation and Settling Velocity in Saline Water, Water Research, 173(15). 10.1016/j.watres.2020.115569

2019

  • Kim*, Y., Mieras, R. S., Cheng, Z., Anderson, D., Hsu, T.-J.,Puleo, J. A., Cox, D. (2019) A numerical study of sheet flow driven by velocity and acceleration skewed near-breaking waves on a sandbar using SedWaveFoam, Coastal Engineering, 152, 103526.
  • Mieras, R. S., J. A. Puleo, D. Anderson, Hsu, T.-J.,D. T. Cox, J. Calantoni (2019), Relative contributions of bed load and suspended load to sediment transport under skewed‐asymmetric waves on a sandbar crest, J. Geophys. Res. Oceans, doi: 10.1029/2018JC014564

2018

  • Kim*, Y., Cheng, Z., Hsu, T.-J.,& Chauchat, J. (2018). A numerical study of sheet flow under monochromatic nonbreaking waves using a free surface resolving Eulerian two-phase flow model. Journal of Geophysical Research: Oceans, 123, 4693–4719.
  • Scott, N. V. and Hsu, T.-J.(2018) Bayesian belief network modeling of direct numerically simulated imagery variables for sub-surface structure diagnostics, Proc. SPIE 10649, Pattern Recognition and Tracking XXIX, 1064912. doi: 10.1117/12.2301255
  • Ye&, L., Manning, A. J., Hsu, T.-J., Morey, S., Chassignet, E., P., Ippolito, T. A. (2018) Novel Application of Laboratory Instrumentation Characterizes Mass Settling Dynamics of Oil-Mineral Aggregates (OMAs) and Oil-Mineral-Microbial Interactions, Marine Tech. Soc. J., 56(6), 1-4.
  • Cheng, Z., Chauchat, J., Hsu, T.-J., Calantoni, J. (2018) Eddy interaction model for turbulent suspension in Reynolds-averaged Euler–Lagrange simulations of steady sheet flow, Advances in Water Resources, 111, 435-451. https://doi.org/10.1016/j.advwatres.2017.11.019
  • Cheng, Z., Hsu, T.-J., Chauchat, J. (2018) An Eulerian two-phase model for steady sheet flow using large-eddy simulation methodology, Advances in Water Resources, 111, 205-223. https://doi.org/10.1016/j.advwatres.2017.11.016

2017

  • Anderson, D., D. Cox, R. Mieras, J. A. Puleo, and T.-J. Hsu (2017), Observations of wave-induced pore pressure gradients and bed level response on a surf zone sandbar, J. Geophys. Res. Oceans, 122, 5169–5193. http://dx.doi.org/10.1002/2016JC012557
  • Mieras, R. S., J. A. Puleo, D. Anderson, D. T. Cox, and T.-J. Hsu (2017), Large-scale experimental observations of sheet flow on a sandbar under skewed-asymmetric waves, J. Geophys. Res. Oceans, 122, 5022–5045. http://dx.doi.org/10.1002/2016JC012438
  • Chauchat, J., Cheng, Z., Nagel, T., Bonamy, C., Hsu, T.-J. (2017) SedFoam-2.0: a 3-D two-phase flow numerical model for sediment transport, Geoscientific Model Development, 10, 4367-4392. https://doi.org/10.5194/gmd-10-4367-2017
  • Zhou, Z., X. Yu, -J. Hsu, F. Shi, W. R. Geyer, and J. T. Kirby (2017), On nonhydrostatic coastal model simulations of shear instabilities in a stratified shear flow at high Reynolds number, J. Geophys. Res. Oceans, 122. http://dx.doi.org/10.1002/2016JC012334.
  • Kim, Y., Zhou, Z., Hsu, T.-J., Puleo, J. A., (2017) Large eddy simulation of dam-break driven swash on a rough-planar beach, Journal of Geophysical Research: Ocean, 122. http://dx.doi.org/10.1002/2016JC012366.
  • Zhou, Z., Hsu, T.-J., Cox, D., Liu, X., (2017) Large–eddy simulation of wave-breaking induced turbulent coherent structures and suspended sediment transport on a barred beach, Journal of Geophysical Research: Oceans, 122, 207-235. http://dx.doi.org/10.1002/2016JC011884
  • Cheng, Z., Hsu, T.-J., Calantoni, J. C., (2017) SedFoam: A multi-dimensional Eulerian two-phase model for sediment transport and its application to momentary bed failure, Coastal Engineering, 119, 32-50. https://doi.org/10.1016/j.coastaleng.2016.08.007
  • Shi, F., Chickadel, C., Hsu, T.-J., Kirby, J. T., Farquharson, G., Ma, G. (2017) High-Resolution Non-Hydrostatic Modeling of Frontal Features in the Mouth of the Columbia River, Estuaries and Coasts, 40(1), 296-309. https://doi.org/10.1007/s12237-016-0132-y

2016

  • Briganti, R., Torres-Freyermuth, A., Baldock, T. E., Brocchini, M., Dodd, N., Hsu, T.-J., Jiang, Z., Kim, Y., Pintado-Patino, J. C., Postacchini, M., (2016) Advances in numerical modelling of swash zone dynamics, Coastal Engineering, 115, 26-41. https://doi.org/10.1016/j.coastaleng.2016.05.001

2015

  • Ma, G., Kirby, J. T., Hsu, T.-J., Shi, F., (2015) A two-layer granular landslide model for tsunami wave generation: Theory and computation, Ocean Modelling, 93, 40-55. https://doi.org/10.1016/j.ocemod.2015.07.012
  • Chen, J.-L., Hsu, T.-J., Shi, F., Raubenheimer, B., Elgar, S. (2015) Hydrodynamic and sediment transport modeling of New River Inlet (NC) under the interaction of tides and waves, Geophys. Res., 120(6), 4028-4047. http://dx.doi.org/10.1002/2014JC010425
  • Cheng Z., Yu, X., Hsu, T.-J., Balachandar, S., (2015) A numerical investigation of fine sediment resuspension in the wave boundary layer – uncertainties in particle inertia and hindered settling, Computers & Geosciences, 83, 176-192. https://doi.org/10.1016/j.cageo.2015.07.009
  • Cheng Z., Yu, X., Hsu, T.-J., Ozdemir, C. E., Balachandar, S., (2015) On the transport mode of fine sediment in the wave boundary layer due to resuspension/deposition – A turbulence-resolving numerical investigation, Geophys., Res., 120, 1918–1936. http://dx.doi.org/10.1002/2014JC010623

2014

  • Yu, X., Hsu, T.-J., Balachandar, S., (2014) Convective instability in sedimentation – 3D numerical study. Geophys. Res., 119(11), 8141-8161. http://dx.doi.org/10.1002/2014JC010123
  • Zhou, Z., Sangermano, J., Hsu, T.-J., Ting, F. C. K., (2014) A numerical investigation of wave-breaking-induced turbulent coherent structure under a solitary wave, Geophys. Res., 119 (10), 6952-6973. http://dx.doi.org/10.1002/2014JC009854
  • Kranenburg, W. M., Hsu, T.-J., Ribberink, J. S., (2014) Two-phase modeling of sheet-flow beneath waves and its dependence on grain size and streaming, Advances in Water Resources, 72, 57-70. https://doi.org/10.1016/j.advwatres.2014.05.008
  • Chen, J.-L., Shi, F., Hsu, T.-J., Kirby, J. T., (2014) NearCoM-TVD — A quasi-3D nearshore circulation and sediment transport model, Coastal Eng., 91, 200-212. https://doi.org/10.1016/j.coastaleng.2014.06.002
  • Torres-Freyermuth, A., Hsu, T.-J., (2014) On the mechanism of low-frequency wave attenuation by muddy seabeds, Res. Lett., 41(8), 2870-2875. http://dx.doi.org/10.1002/2014GL060008
  • Ozdemir, C. E., Hsu, T.-J., Balachandar, S., (2014) Direct numerical simulations of transition and turbulence in Stokes boundary layer, Fluids, 26, 045108. https://doi.org/10.1063/1.4871020
  • Hsu, H.-C., A. Torres-Freyermuth, H.,-H., Hwung, T.-J. Hsu, P.-C. Kao, (2014) On dam-break flood propagation and its implication to sediment erosion, Journal of Hydraulic Research, 52(2), 205-218. https://doi.org/10.1080/00221686.2013.857365
  • Yu, X., C. E. Ozdemir, Hsu, T.-J., Balachandar, S., (2014) Numerical investigation of turbulence modulation by sediment-induced stratification and enhanced viscosity in oscillatory flows, Journal of Waterway, Port, Coastal, and Ocean Engineering, 140(2), 160-172. https://doi.org/10.1061/(ASCE)WW.1943-5460.0000232

2013

  • Yu, X., Hsu, T.-J., Balachandar, S., (2013) A spectral-like turbulence-resolving scheme for fine sediment transport in the bottom boundary layer, Computers and Geosciences, 61, 11-22. https://doi.org/10.1016/j.cageo.2013.07.021
  • Ozdemir, C. E., Hsu, T.-J., Balachandar, S., (2013) A Direct numerical simulation of instability and boundary layer turbulence under a solitary wave, Fluid Mech., 731, 545-578. https://doi.org/10.1017/jfm.2013.361
  • Chen, S. C., Geyer, R. W., Hsu, T.-J., (2013) A numerical investigation of the dynamics and structure of hyperpycnal river plumes on sloping continental shelves, Geophys. Res., 118(5), 2702-2718. http://dx.doi.org/10.1002/jgrc.20209
  • Hsu, W. Y., Hwung, H. H., T.-J. Hsu, Torres-Freyermuth, A., Yang, R. Y., (2013) An experimental and numerical study on wave-mud interaction, Geophys. Res., 118(3), 1126-1141. http://dx.doi.org/10.1002/jgrc.20103
  • Yu, X., Hsu, T.-J., Balachandar, S., (2013) Convective instability in sedimentation – a linear stability analysis. Geophys. Res., 118(1), 256-272. http://dx.doi.org/10.1029/2012JC008255
  • Sahin, C., I. Safak , T.-J. Hsu, A. Sheremet, (2013) Observations of Sediment Stratification on the Muddy Atchafalaya Shelf, Louisiana, USA, Marine Geology, 336, 24-32. https://doi.org/10.1016/j.margeo.2012.12.001

2012

2011

2010

  • Ozdemir, C. E., Hsu, T.-J., Balachandar, S., (2010) A numerical investigation of fine particle laden flow in oscillatory channel: the role of particle-induced density stratification, Fluid Mech., 665, 1-45. https://doi.org/10.1017/S0022112010003769
  • Safak, I., A. Sheremet, M.A. Allison, and T.-J. Hsu, (2010) Bottom turbulence on the muddy Atchafalaya Shelf, Louisiana, USA, Geophys. Res., 115, C12019. http://dx.doi.org/10.1029/2010JC006157
  • Torres-Freyermuth, A., and Hsu, T.-J., (2010) On the dynamics of wave-mud interaction: a numerical study, Geophys. Res., 115, C07014. http://dx.doi.org/10.1029/2009JC005552
  • Ozdemir, C. E., T.-J. Hsu, S. Balachandar, (2010) Simulation of fine sediment transport in oscillatory boundary layer, Journal of Hydro-environment Research, 3, 247-259. https://doi.org/10.1016/j.jher.2009.10.013
  • Yu, X, and Hsu, T.-J., and Hanes, D. M. (2010) Sediment transport under wave groups- the relative importance between wave shape and boundary layer streaming, Geophys. Res., 115, C02013. http://dx.doi.org/10.1029/2009JC005348

2009

  • Pedrozo-Acuña, A., Torres-Freyermuth, A., Zou, Q., Hsu, T.-J., Reeve, D. E., (2009) Diagonostic investigation of impulsive pressures induced by plunging breakers impinging on gravel beaches, Coastal Eng., 57, 252-266. https://doi.org/10.1016/j.coastaleng.2009.09.010
  • Scott N. V., Hsu, T.-J., Cox, D., (2009) Steep wave, turbulence, and sediment concentration statistics and their implications to sediment transport, Shelf Res., 29, 2303-2317. https://doi.org/10.1016/j.csr.2009.09.008
  • Son, M., and Hsu, T.-J., (2009) The effect of variable yield strength and variable fractal dimensional on flocculation of cohesive sediment, Water Res., 43, 3582-3592. https://doi.org/10.1016/j.watres.2009.05.016
  • Hsu, T.-J., Ozdemir C. E., Traykovski P. A., (2009) High resolution numerical modeling of wave-supported gravity-driven fluid mud transport, Geophysical Res., 114, C05014. http://dx.doi.org/10.1029/2008JC005006
  • Bhaganagar, K., and Hsu, T.-J., (2009) Direct numerical simulation of flow over 2D and 3D ripples and implication to sediment transport: steady flow, Coastal Eng., 56(3), 320-331. https://doi.org/10.1016/j.coastaleng.2008.09.010

2008

2007

  • Hsu, T.-J., Traykovski P. A., and Kineke, G. C., (2007). On modeling boundary layer and gravity driven fluid mud transport, Geophys. Res., 112, C04011. http://dx.doi.org/10.1029/2006JC003719

2006

2005

  • Amoudry, L., Hsu, T.-J., and Liu, P. L.-F. (2005) Schmidt number and near-bed boundary condition effects on a two-phase dilute sediment transport model, Geophys. Res., 110(C9), C09003. http://dx.doi.org/10.1029/2004JC002798
  • Chang, K-A, Hsu, T.-J., and Liu, P. L.-F., (2005) Vortex generation and evolution in water waves propagating over a submerged rectangular obstacle. Part II: Cnoidal waves, Coastal Engineering, 52(3), 257-283. https://doi.org/10.1016/S0378-3839(01)00019-9

2004

2003

2002

2001

  • Chang, K-A, Hsu, T.-J., and Liu, P. L.-F. (2001) Vortex generation and evolution in water waves propagating over a submerged rectangular obstacle. Part I: Solitary waves, Eng., 44(1), 13-36. https://doi.org/10.1016/S0378-3839(01)00019-9

Google Scholar

2022

  • Kirby, J. T., Grilli, S. T., Horrillo, J., Liu, P. L.-F., Nicolsky, D., Abadie, S., Ataie-Ashtiani, B., Castro, M. J., Clous, L., Escalante, C., Fine, I., Gonza ́ez-Vida, J. M., Lovholt, F., Lynett, P., Ma, G., Mac ́ıas, J., Ortega, S., Shi, F., Yavari-Ramshe, S. and Zhang, C., 2022, “Validation and intercomparison of models for landslide tsunami generation”, Ocean Modelling, 170, 101943, doi:10.1016/j.ocemod.2021.101943.
  • Deb, M., Abdolali, A., Kirby, J. T. and Shi, F., 2022, “Hydrodynamic modeling in an eroding salt marsh: Importance of channel shoreline and bathymetric resolution”, Coastal Engineering, 173, 104094, doi:10.1016/j.coastaleng.2022.104094
  • Deb, M., Abdolali, A., Kirby, J. T., Shi, F., Guiteras, S. and McDowell, C., 2022, “Sensitivity of tidal hydrodynamics to varying bathymetric configurations in a multi-inlet rapidly eroding salt marsh system: A numerical study”, Earth Surface Processes and Landforms, 47, 1157–1182, doi:10.1002/esp.5308.

2021

  • Zhang, C., Kirby, J. T., Shi, F., Ma, G. and Grilli, S. T., 2021, “A two-layer non-hydrostatic landslide model for tsunami generation on irregular bathymetry. 2. Numerical discretization and model validation”, Ocean Modelling, 160, 101769, doi:10.1016/j.ocemod.2021.101769.
  • Kirby, J. T. and Smit, P. B., 2021, “Comment on “Deep water gravity wave triad resonances on uniform flow” [D. M. Kouskoulas and Y. Toledo, Physics of Fluids 32, 076603 (2020)]”, Physics of Fluids, 33, 069101, doi:10.1063/5.0037136.
  • Grilli,S.T.,Zhang,C.,Kirby,J.T.,Grilli,A.R.,Tappin,D.,Watt,S.,Hunt,J.E.,Novellino,A.,Engwell,S., Nurshal, M. E. M., Abdurrachman, M., Cassidy, M., Madden-Nadeau, A. L. and Day, S., 2021, “Modeling of the 12/22/18 Anak Krakatau volcano collapse and tsunami based on recent field surveys: comparison with observed tsunami impact”, Marine Geology, 440, 106566, doi:10.1016/j.margeo.2021.106566.
  • Zhang, C., Kirby, J. T., Shi, F., Ma, G. and Grilli, S. T., 2021, “A two-layer non-hydrostatic landslide model for tsunami generation on irregular bathymetry. 1. Theoretical basis”, Ocean Modelling, 159, 101749, doi:10.1016/j.ocemod.2020.101749.
  • Tehranirad, B., Kirby, J. T. and Shi, F., 2021, “A model for tsunami-induced morphology adjustment”, Pure and Applied Geophysics, in press, doi:10.1007/s00024-020-02614-w.

2020

  • Chen, Y., Shi, F., Kirby, J., Wu, G. and Liang, B., 2020,“A computationally efficient subgrid model for coupled surface and groundwater flows”, Coastal Engineering, 157, 103665, doi:10.1016/j.coastaleng.2020.103665.
  • Kirby, J. T., 2020, “A new instability for Boussinesq-type equations”, Journal of Fluid Mechanics, 894, F1, doi:10.1017/jfm.2020.257.
  • Derakhti, M., Thomson, J. and Kirby, J. T., 2020, “Sparse sampling of intermittent turbulence generated by breaking surface waves”, Journal of Physical Oceanography, 50, 867-885, doi:10.1175/JPO-D-19-0138.1.
  • Yuan, Y., Shi, F., Kirby, J.T. and Yu, F., 2020, “FUNWAVE-GPU:Multiple-GPU acceleration of a Boussinesq-type wave model”, Journal of Advances in Modeling Earth Systems, 12, e2019MS001957, doi:10.1029/2019MS001957.
  • Kirby, J. T., 2020, “Low-order Boussinesq models based on σ coordinate series expansions”, Journal of Fluid Mechanics, 896, R3, doi:10.1017/jfm.2020.376.
  • Derakhti, M., Kirby, J. T., Banner, M. L., Grilli, S. T. and Thomson, J., 2020, “A unified breaking-onset criterion for surface gravity water waves in arbitrary depth”, Journal of Geophysical Research: Oceans, 125, e2019JC015886, doi:10.1029/2019JC015886.
  • Grilli, A. R., Westcott, G., Grilli, S. T., Spaulding, M. L., Shi, F. and Kirby, J. T., 2020, “Assessing coastal risk from extreme storms with a phase resolving wave model: Case study of Narragansett, RI, USA”, Coastal Engineering, 160, 103735, doi:10.1016/j.coastaleng.2020.103735.

2019

  • Kirby, J. T. and Derakhti, M., 2019, “Short-crested wave breaking”, European Journal of Mechanics B/Fluids, 73, 100-111, doi:10.1016/j.euromechflu.2017.11.001.
  • Schambach, L., Grilli, S. T., Kirby, J. T. and Shi, F,, 2019, “Landslide tsunami hazard along the upper US East Coast: effects of slide rheology bottom friction and frequency dispersion”, Pure and Applied Geophysics, 176, 3059-3098, doi:10.1007/s00024-018-1978-7.
  • Grilli, S. T., Tappin, D. R., Carey, S., Watt, S. F. L., Ward, S. N., Grilli, A. R., Engwell, S. Zhang, C., Kirby, J. T., Schambach, L. and Muin, M., 2019, “Modeling of the tsunami from the December 22, 2018 lateral collapse of Anak Krakatau volcano in the Sunda Straits of Indonesia”, Scientific Reports, 9, 11946, doi:10.1038/s41598-019-48327-6.
  • Banihashemi, S. and Kirby, J. T., 2019, “Approximation of wave action conservation in strongly sheared mean flows”, Ocean Modelling, 143, 101460, doi:10.1016/j.ocemod.2019.101460.
  • Abdolali, A., Kadri, U. and Kirby, J. T., 2019, “Effect of water compressibility, sea floor elasticity, and field gravitational potential on tsunami phase speed”, Scientific Reports, 9, 16874, doi:10.1038/s41598- 019-52475-0.

2018

  • Orzech, M. D., Veeramony, J., Shi, F., Kirby, J. T., Bateman, S. and Calantoni, J., 2018, “A coupled system for investigating the physics of wave-ice interactions”, Journal of Atmospheric and Oceanic Technology, 35, 1471-1485, doi:10.1175/JTECH-D-17-0189.1.
  • Wu, G., Shi, F., Kirby, J. T., Shi, J. and Liang, B., 2018, “Modeling wave effects on storm surge and coastal inundation”, Coastal Engineering, 140, 371-382, doi:10.1016/j.coastaleng.2018.08.11.
  • Abdolali, A., Kadri, U., Parsons, W. and Kirby, J. T., 2018, “On the propagation of acoustic-gravity waves under elastic ice sheets”, Journal of Fluid Mechanics837, 640-656, doi:10.1017/jfm.2017.808, Cambridge Core Share access code 5A9FC1CA9902F823CDD1098A70442449.
  • Shi, F., Malej, M., Smith, J. M. and Kirby, J. T., 2018, “Breaking of ship bores in a Boussinesq-type ship-wake model”, Coastal Engineering132, 1-12, doi:10.1016/j.coastaleng.2017.11.002.

2017

  • Abdolali, A. and Kirby, J. T., 2017, “Role of compressibility on tsunami propagation”, Journal of Geophysical Research: Oceans122, 9780-9794, doi:10.1002/2017JC013054Wiley content link.
  • Kukulka, T., Jenkins, R. L., Kirby, J. T., Shi, F. and Scarborough, R. W., 2017, “Surface wave dynamics in Delaware Bay and its adjacent coastal shelf”, Journal of Geophysical Research: Oceans122, 8683–8706, doi:10.1002/2017JC013370.
  • Kirby, J. T., 2017, “Recent advances in nearshore wave, circulation and sediment transport modeling”, Journal of Marine Research75, 263-300, doi:10.1357/002224017821836824.
  • Wu, G., Li, H., Liang, B., Shi, F., Kirby, J. T. and Mieras, R., 2017, “Subgrid modeling of salt marsh hydrodynamics with effects of vegetation and vegetation zonation”, Earth Surface Processes and Landforms42, 1755-1768, doi:10.1002/esp.4121.
  • Banihashemi, S., Kirby, J. T. and Dong, Z., 2017, “Approximation of wave action flux velocity in strongly sheared mean flows”, Ocean Modelling116, 33-47, doi:10.1016/j.ocemod.2017.06.002.
  • Zhou, Z., Yu, X., Hsu, T.-J., Shi, F., Geyer, W. R. and Kirby, J. T., 2017, “On non-hydrostatic coastal model simulations of shear instabilities in a stratified shear flow at high Reynolds number”, Journal of Geophysical Research: Oceans122, 3081-3105, doi:10.1002/2016JC012334.
  • Lynett, P. J., Gately, K., Wilson, R., Montoya, L., Arcas,D., Aytore, B., Bai, Y., Bricker, J. D., Castro, M. J., Cheung, K. F., David, C. G., Dogan, G. G., Escalante, C., González, F. I., González-Vida, J. M., Grilli, S. T., Heitmann, T. W., Horrillo, J., KânoÄŸlu, U., Kian, R., Kirby, J. T., Li, W., Macías, J., Nicolsky, D. J., Ortega, S., Pampell-Maniso, A., Park, Y. S., Roeber, V., Sharghivand, N., Shelby, M., Shi, F., Tehranirad, B., Tolkova, E., Thio, H. K., VelioÄŸlu, D., Yalçıner, A. C., Yamazaki, Y., Zaytsev, A., Zhang, Y. J., 2017, “Inter-model analysis of tsunami-induced coastal currents”, Ocean Modelling114, 14-32, doi:10.1016/j.ocemod.2017.04.003.
  • Grilli, S. T., Shelby, M., Kimmoun, O., Dupont, G., Nicolsky, D., Ma, G., Kirby, J. T. and Shi, F., 2017, “Modeling coastal tsunami hazard from submarine mass failures: effect of slide rheology, experimental validation, and case studies off the US East Coast”, Natural Hazards86, 353-391, doi:10.1007/s11069-016-2692-3.
  • Shi, F., Chickadel, C., Hsu, T.-J., Kirby, J. T., Farquharson, G. and Ma, G., 2017, “High-resolution non-hydrostatic modeling of frontal features in the mouth of the Columbia River”, Estuaries and Coasts40, 296-309, doi:10.1007/s12237-016-0132-y, and supplement .

2016

  • Kirby, J. T., Shi, F., Nicolsky, D. and Misra, S., 2016, “The 27 April 1975 Kitimat, British Columbia submarine landslide tsunami: A comparison of modeling approaches”, Landslides13, 1421-1434, doi:10.1007/s10346-016-0682-x.
  • Derakhti, M., Kirby, J. T., Shi, F. and Ma, G., 2016, “Wave breaking in the surf zone and deep water in a non-hydrostatic RANS model. Part 2: Turbulence and mean circulation”, Ocean Modelling107, 139-150, doi:10.1016/j.ocemod.2016.09.011.
  • Derakhti, M., Kirby, J. T., Shi, F. and Ma, G., 2016, “Wave breaking in the surf zone and deep water in a non-hydrostatic RANS model. Part 1: Organized wave motions”, Ocean Modelling107, 125-138, doi:10.1016/j.ocemod.2016.09.001.
  • Schnyder, J. S. D., Eberli, G. P., Kirby, J. T., Shi, F., Tehranirad, B., Mulder, T., Ducassou, E., Hebbeln, D. and Wintersteller, P., 2016, “Tsunamis caused by submarine slope failures along western Great Bahama Bank”, Scientific Reports (Nature)6, 35925, doi:10.1038/srep35925.  Millero Prize, best student publication (2016), Rosenstiel School, University of Miami (press release).
  • Kirby, J. T., 2016, “Boussinesq models and their application to coastal processes across a wide range of scales”, Journal of Waterway, Port, Coastal and Ocean Engineering142(6), 03116005, doi:10.1061/(ASCE)WW.1943-5460.0000350.
  • Prestininzi, P., Abdolali, A., Montessori, A., Kirby, J. T. and La Rocca, M., 2016, “Lattice Boltzmann approach for hydro-acoustic waves generated by tsunamigenic sea bottom displacement”, Ocean Modelling107, 14-20, doi:10.1016/j.ocemod.2016.09.012.
  • Derakhti, M., Kirby, J. T., Shi, F. and Ma, G., 2016, “NHWAVE: Consistent boundary conditions and turbulence modeling”, Ocean Modelling106, 121-130, doi:10.1016/j.ocemod.2016.09.002.
  • Ma, G., Farahani, A. A., Kirby, J. T. and Shi, F., 2016, “Modeling wave-structure interactions by an immersed boundary method in a sigma-coordinate model”, Ocean Engineering125, 238-247, doi:10.1016/j.oceaneng.2016.08.027.
  • Orzech, M., Shi, F., Veeramony, J., Bateman, S., Calantoni, J. and Kirby, J. T., 2016, “Incorporating floating surface objects into a fully dispersive surface wave model”, Ocean Modelling102, 14-26, doi:10.1016/j.ocemod.2016.04.007. 
  • Derakhti, M. and Kirby, J. T., 2016, “Breaking-onset, energy and momentum flux in unsteady focused wave packets”, Journal of Fluid Mechanics790, 553-581, doi:10.1017/jfm.2016.17. 
  • Wu, G., Shi, F., Kirby, J. T., Mieras, R., Liang, B., Li, H. and Shi, J., 2016, “A pre-storage, subgrid model for simulating flooding and draining processes in salt marshes”, Coastal Engineering108, 65-78, doi:10.1016/j.coastaleng.2015.11.008.

2015

  • Shi, J., Shi, F., Kirby, J. T., Ma, G.. Wu, G., Tong, C. and Zheng, J., 2015, “Pressure decimation and interpolation (PDI) method for a baroclinic non-hydrostatic model”, Ocean Modelling96, 265-279, doi:10.1016/j.ocemod.2015.09.010
  • Tehranirad, B., Harris, J. C., Grilli, A. R., Grilli, S. T., Abadie, S., Kirby, J. T. and Shi, F., 2015, “Far-field tsunami hazard on the western European and US east coast from a large scale flank collapse of the Cumbre Vieja volcano, La Palma”, Pure and Applied Geophysics172, 3589-3616, doi:10.1007/s00024-015-1135-5 
  • Ma, G., Kirby, J. T., Hsu, T.-J. and Shi, F., 2015, “A two-layer granular landslide model for tsunami wave generation: Theory and computation”, Ocean Modelling93, 40-55, doi:10.1016/j.ocemod.2015.07.012 
  • Choi, J., Kirby, J. T. and Yoon, S. B., 2015, “Boussinesq modeling of longshore currents in the Sandy Duck experiment under directional random wave conditions”, Coastal Engineering101, 17-34, doi:10.1016/j.coastaleng.2015.04.005 , and Reply to Discussion, 106, 4-6, doi:10.1016/j.coastaleng.2015.09.002 .
  • Abdolali, A., Cecioni, C., Bellotti, G. and Kirby, J. T., 2015, “Hydro-acoustic and tsunami waves generated by the 2012 Haida Gwaii earthquake: modeling and in-situ measurements”, Journal of Geophysical Research: Oceans120, 958-971, doi:10.1002/2014JC010385 
  • Grilli, S. T., O’Reilly, C., Harris, J. C., Tajalli Bakhsh, T., Tehranirad, B., Banihashemi, S., Kirby, J. T., Baxter, C. D. P., Eggeling, T., Ma, G. and Shi, F., 2015, “Modeling of SMF tsunami hazard along the upper U. S. East Coast: Detailed impact around Ocean City, MD”, Nat. Hazards76, 705-746, doi:10.1007/s11069-014-1522-8 
  • Abdolali, A., Kirby, J. T. and Bellotti, G., 2015, “Depth-integrated equation for hydro-acoustic waves with bottom damping”, Journal of Fluid Mechanics766, R1, doi:10.1017/jfm.2015.37 
  • Shi, F., Vittori, G. and Kirby, J. T., 2015, “Concurrent correction method for modeling morphological response to dredging an offshore sandpit”, Coastal Engineering97, 1-10, doi:10.1016/j.coastaleng.2014.12.008 

2014

  • Derakhti, M. and Kirby, J. T., 2014, “Bubble entrainment and liquid-bubble interaction under unsteady breaking waves”, Journal of Fluid Mechanics761, 464-506, doi:10.1017/jfm.2014.637 
  • Tappin, D. R., Grilli, S. T., Harris, J. C., Geller, R. J., Masterlark, T., Kirby, J. T., Shi, F., Ma, G., Thingbaijam, K. K. S. and Mai, P. M., 2014, “Did a submarine landslide contribute to the 2011 Tohoku tsunami?”, Marine Geology357, 344-361, doi:10.1016/j.margeo.2014.09.043 
  • Chen, J.-L., Shi, F., Hsu, T. J. and Kirby, J. T., 2014, “NearCoM-TVD – a quasi-3D nearshore circulation and sediment transport model”, Coastal Engineering91, 200-212, doi:10.1016/j.coastaleng.2014.06.002

2013

  • Ma, G., Kirby, J. T. and Shi, F., 2013, “Numerical simulation of tsunami waves generated by deformable submarine landslides”, Ocean Modelling69, 146-165, doi:10.1016/j.ocemod.2013.07.001.
  • Ma, G., Kirby, J T., Su, S. F., Figlus, J. and Shi, F., 2013, “Numerical study of turbulence and wave damping induced by vegetation canopies”, Coastal Engineering80, 68-78, doi:10.1016/j.coastaleng.2013.05.007 
  • Grilli, S. T., Harris, J. C., Tajalli Bakhsh, T., Masterlark, T. L., Kyriakopoulus, C., Kirby, J. T. and Shi, F., 2013, “Numerical simulation of the 2011 Tohoku tsunami based on a new transient FEM co-seismic source: Comparison to far- and near-field observation”, Pure and Applied Geophysics170, 1333-1359,  doi:10.1007/s00024-012-0528-y .
  • Sawyer, A. H., Shi, F., Kirby, J. T. and Michael, H. A., 2013, “Dynamic response of surface water-groundwater exchange to currents, tides and waves in a shallow estuary”, Journal of Geophysical Research – Oceans118, 1749-1758, doi:10.1002/jgrc.20154
  • Shi, F., Cai, F., Kirby, J. T. and Zheng, J., 2013, “Morphological modeling of a nourished bayside beach with a low tide terrace”, Coastal Engineering78, 23-34, doi:10.1016/j.coastaleng.2013.03.005.
  • Geiman, J. D. and Kirby, J. T., 2013, “Unforced oscillation of rip-current vortex cells”, Journal of Physical Oceanography43, 477-497, doi:10.1175/JPO-D-11-0164.1.
  • Kirby, J. T., Shi, F., Tehranirad, B., Harris, J. C. and Grilli, S. T., 2013, “Dispersive tsunami waves in the ocean: model equations and sensitivity to dispersion and Coriolis effects”, Ocean Modelling62, 39-55, doi:10.1016/j.ocemod.2012.11.009Certificate for Highly Cited Research .

2012

  • Karjadi, E., Badiey, M., Kirby, J. T. and Bayindir, C., 2012, “The effects of surface gravity waves on high frequency acoustic propagation in shallow water”, IEEE Journal of Oceanic Engineering37, 112-121, doi:10.1109/JOE.2011.2168670
  • Shi, F., Kirby, J. T., Harris, J. C., Geiman, J. D. and Grilli, S. T., 2012, “A high-order adaptive time-stepping TVD solver for Boussinesq modeling of breaking waves and coastal inundation”, Ocean Modelling43-44, 36-51.doi:10.1016/j.ocemod.2011.12.004
  • Ma, G., Shi, F. and Kirby, J. T., 2012, “Shock-capturing non-hydrostatic model for fully dispersive surface wave processes”, Ocean Modelling43-44, 22-35, doi:10.1016/j.ocemod.2011.12.002

2011

  • Hampson, R., MacMahan, J. and Kirby, J. T., 2011, “A low-cost hydrographic kayak surveying system”, Journal of Coastal Research27, 600-603, doi:10.2112/JCOASTRES-D-09-00108.
  • Ma, G., Shi, F. and Kirby, J. T., 2011, “A polydisperse two-fluid model for surf zone bubble simulation”, Journal of Geophysical Research116, C05010, doi:10.1029/2010JC006667 
  • Shi, F., Hanes, D. M., Kirby, J. T., Erikson, L., Barnard, P. and Eshleman, J., 2011, “Pressure gradient-dominated nearshore circulation on a beach influenced by an adjacent large inlet”, Journal of Geophysical Research116, C04020, doi:10.1029/2010JC006788.
  • Geiman, J. D., Kirby, J. T., Reniers, A. J. H. M. and MacMahan, J. H., 2011, “Effects of wave-averaging on estimates of fluid mixing in the surfzone”, Journal of Geophysical Research116, C04006, doi:10.1029/2010JC006678.

2010

  • Grilli, S. T., Dubosq, S., Pophet, N., Perignon, Y., Kirby, J. T. and Shi, F., 2010, “Numerical simulation of co-seismic tsunami impact on the North Shore of Puerto Rico and far-field impact on the US East Coast: a first-order hazard analysis”, Natural Hazards and Earth Systems Science10, 2109-2125, doi:10.5194/nhess-10-2109-2010.
  • Shi, F., Kirby, J. T. and Ma, G., 2010, “Modeling quiescent phase transport of air bubbles induced by breaking waves”, Ocean Modelling35, 105-117, doi:10.1016/j.ocemod.2010.07.002.
  • Zhang, W.-Z., Shi, F., Hong, H.-S., Shang, S.-P., Kirby, J. T., 2010, “Tide-surge interaction intensified by the Taiwan Strait”, Journal of Geophysical Research115, C06012, doi:10.1029/2009JC005762.
  • Debsarma, S., Das, K. P. and Kirby, J. T., 2010, “Fully nonlinear higher order model equations for long internal waves in a two fluid system”, Journal of Fluid Mechanics645, 281-303, doi:10.1017/S0022112010000601.

2009

  • Waythomas, C. F., Watts, P., Shi, F. and Kirby, J. T., 2009, “Pacific basin tsunami hazards associate with mass flows in the Aleutian Arc of Alaska”, Quaternary Science Reviews28, 1006-1019, doi:10.1016/j.quascirev.2009.02.019

2008

  • Terrile, E., Brocchini, M., Christensen, K. H. and Kirby, J. T., 2008, “Dispersive effects on wave-current interaction and vorticity transport in nearshore flows”, Physics of Fluids20, 036602, doi:10.1063/1.288973
  • Misra, S. K., Kirby, J. T., Brocchini, M., Veron, F., Thomas, M. and Kambhamettu, C., 2008, “The mean and turbulent flow structure of a weak hydraulic jump Physics of Fluids20, 035106, doi:10.1063/1.2856269
  • Long, W., Kirby, J. T. and Shao, Z., 2008, “A numerical scheme for morphological bed level calculations”, Coastal Engineering55, 167-180,  doi:10.1016/j.coastaleng.2007.09.009.

2007

  • Shi, F., Kirby, J. T. and Hanes, D. M., 2007, “An efficient mode-splitting method for a curvilinear nearshore circulation model”, Coastal Engineering54, 811-824, doi:10.1016/j.coastaleng.2007.05.009.
  • Grilli, S. T., Ioualalen, M., Asavanant, J., Shi, F., Kirby, J. T. and Watts, P., 2007, “Source constraints and model simulation of the December 26, 2004 Indian Ocean tsunami”, Journal of Waterway, Port, Coastal and Ocean Engineering133, 414-428, doi:10.1061/(ASCE)0733-950X(2007)133:6(414).
  • Ioualalen, M., J. A. Asavanant, N. Kaewbanjak, N., Grilli, S. T., Kirby, J. T. and Watts, P., 2007, “Modeling of the 26th December 2004 Indian Ocean tsunami: Case study of impact in Thailand”, Journal of Geophysical Research112, C07024, doi:10.1029/2006JC003850.
  • Kaihatu, J. M., Veeramony, J., Edwards, K. L. and Kirby, J. T., 2007, “Asymptotic behavior of frequency and wavenumber spectra of nearshore shoaling and breaking waves”, Journal of Geophysical Research112, C06016, doi:10.1029/2006JC003817

2006

  • Terrile, E., Briganti, R., Brocchini, M. and Kirby, J. T., 2006, “Topographically-induced enstrophy production/dissipation in coastal models”, Physics of Fluids18(12), 126603, doi:10.1063/1.2400076
  • Misra, S. K., Thomas, M., Kambhamettu, C., Kirby, J. T., Veron, F. and Brocchini, M., 2006, “Estimation of complex air-water interfaces from PIV images”, Experiments in Fluids40, 764-775, doi:10.1007/s00348-006-0113-1

2005

  • Shi, F. and Kirby, J. T., 2005, “Curvilinear parabolic approximation for surface wave transformation with wave-current interaction”, Journal of Computational Physics204, 562-586. (pdf)
  • Thomas, M., Misra, S., Kambhamettu, C. and Kirby, J. T., 2005, “A robust motion estimation algorithm for PIV”, Measurement Science and Technology16, 865-877, (pdf)
  • Day, S. J., Watts, P., Grilli, S. T. and Kirby, J. T., 2005, “Mechanical models of the 1975 Kalapana, Hawaii earthquake and tsunami”, Marine Geology215, 59-92, doi:10.1016/j.margeo.2004.11.008

2003

  • Chen, Q., Kirby, J. T., Dalrymple, R. A., Shi, F. and Thornton, E. B., 2003, “Boussinesq modeling of longshore currents”, Journal of Geophysical Research108(C11), 3362, doi:10.1029/2002JC001308 
  • Watts, P., Grilli, S. T., Kirby, J. T., Fryer, G. J. and Tappin, D. R., 2003, “Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model”, Natural Hazards and Earth System Sciences,3, 391-402, doi:10.5194/nhess-3-391-2003
  • Shi, F., Svendsen, I. A., Kirby, J. T. and Smith, J. M., 2003, “A curvilinear version of a quasi-3D nearshore circulation model”, Coastal Engineering49, 99-124, doi:10.1016/S0378-3839(03)00049-8.
  • Kennedy, A.B., and Kirby, J.T., 2003, “An unsteady wave driver for narrow-banded waves: modeling nearshore circulation driven by wave groups”, Coastal Engineering48, 257-275, doi:10.1016/S0378-3839(03)00031-0
  • Shi, F., Kirby, J. T., Dalrymple, R. A. and Chen, Q., 2003, “Wave simulations in Ponce de Leon Inlet using a Boussinesq model”, Journal of Waterway, Port, Coastal and Ocean Engineering129, 124-135, doi:10.1061/(ASCE)0733-950X(2003)129:3(124)
  • Misra, S. K., Kennedy, A. B. and Kirby, J. T., 2003, “An approach to determining nearshore bathymetry using remotely sensed ocean surface dynamics”, Coastal Engineering47, 265-293, doi:10.1016/S0378-3839(02)00118-7

2002

  • Chawla, A. and Kirby, J. T., 2002, “Monochromatic and random wave breaking at blocking points”, Journal of Geophysical Research107(C7)doi:10.1029/2001JC001042
  • Kennedy, A. B., Kirby, J. T. and Gobbi, M. F., 2002, “Simplified higher order Boussinesq equations. 1: Linear considerations”, Coastal Engineering44, 205-229, doi:10.1016/S0378-3839(01)00032-1.

2001

  • Shi, F., Dalrymple, R. A., Kirby, J. T., Chen, Q. and Kennedy, A., 2001, “A fully nonlinear Boussinesq model in generalized curvilinear coordinates”, Coastal Engineering42, 337-358, doi:10.1016/S0378-3839(00)00067-3.
  • Kennedy, A. B., Kirby, J. T., Chen, Q. and Dalrymple, R. A., 2001, “Boussinesq-type equations with improved nonlinear behaviour”, Wave Motion33, 225-243, (pdf)

2000

  • Svendsen, I. A., Veeramony, J., Bakunin, J. and Kirby, J. T., 2000, “The flow in weak turbulent hydraulic jumps”, Journal of Fluid Mechanics418, 25-57, doi:10.1017/S0022112000008867.
  • Kennedy, A. B., Dalrymple, R. A., Kirby, J. T. and Chen, Q., 2000, “Determination of inverse depths using direct Boussinesq modelling”, Journal of Waterway, Port, Coastal and Ocean Engineering126, 206-214, doi: 10.1061/(ASCE)0733-950X(2000)126:4(206) .
  • Chawla, A. and Kirby, J. T., 2000, “A source function method for generation of waves on currents in Boussinesq models”, Applied Ocean Research22, 75-83, doi:10.1016/S0141-1187(00)00005-5
  • Gobbi, M. F., Kirby, J. T. and Wei, G., 2000, “A fully nonlinear Boussinesq model for surface waves. II. Extension to O(kh^4)”, Journal of Fluid Mechanics405, 181-210, doi:10.1017/S0022112099007247.
  • Chen, Q., Kirby, J. T., Dalrymple, R. A., Kennedy, A. B. and Chawla, A., 2000, “Boussinesq modeling of wave transformation, breaking and runup. II: Two horizontal dimensions”, Journal of Waterway, Port, Coastal and Ocean Engineering126, 48-56, doi:10.1061/(ASCE)0733-950X(2000)126:1(48) .
  • Kennedy, A. B, Chen, Q., Kirby, J. T., and Dalrymple, R. A., 2000, “Boussinesq modeling of wave transformation, breaking and runup. I: One dimension”, Journal of Waterway, Port, Coastal and Ocean Engineering126, 39-47, doi:10.1061/(ASCE)0733-950X(2000)126:1(39) .

1999

  • Ozkan-Haller, H. T. and Kirby, J. T., 1999, “Nonlinear evolution of shear instabilities of the longshore current: A comparison of observations and computations”, Journal of Geophysical Research104, 25,953 – 25,984, (pdf)
  • Chen, Q., Dalrymple, R. A., Kirby, J. T., Kennedy, A. and Haller, M. C., 1999, “Boussinesq modeling of a rip current system”, Journal of Geophysical Research104, 20,617 -20,637, (pdf)
  • Gobbi, M. F. and Kirby, J. T., 1999, “Wave evolution over submerged sills: Tests of a high-order Boussinesq model”, Coastal Engineering37, 57-96, doi:10.1016/S0378-3839(99)00015-0, and erratum, 40, 277, 2000, doi:10.1016/S0378-3839(00)00022-3.
  • Wei, G., Kirby, J. T. and Sinha, A., 1999, “Generation of waves in Boussinesq models using a source function method”, Coastal Engineering36, 271-299, doi:10.1016/S0378-3839(99)00009-5.

1998

  • Chawla, A., Ozkan-Haller, H. T. and Kirby, J. T., 1998, “Spectral model for wave transformation over irregular bathymetry”, Journal of Waterway, Port, Coastal and Ocean Engineering124, 189-198, doi:10.1061/(ASCE)0733-950X(1998)124:4(189).
  • Kaihatu, J. M. and Kirby, J. T., 1998, “Two-dimensional parabolic modeling of extended Boussinesq equations”, Journal of Waterway, Port, Coastal and Ocean Engineering124, 57-67, doi:10.1061/(ASCE)0733-950X(1998)124:2(57).

1997

  • Ozkan-Haller, H. T. and Kirby, J. T., 1997, “A Fourier-Chebyshev collocation method for the shallow water equations including shoreline runup”, Applied Ocean Research.19, 21-34, doi:10.1016/S0141-1187(97)00011-4

1996

  • Chajes, M. J., Zhang, L. and Kirby, J. T., 1996, “Dynamic analysis of tall building using reduced-order continuum model”, Journal of Structural Engineering122, 1284-1291, (pdf)
  • Chajes, M. J., Finch, W. W. and Kirby, J. T., 1996, “Dynamic analysis of a 10-story reinforced concrete building using a continuum model”, Computers and Structures58, 487-498, (pdf)
  • Walker, C. A., Kirby, J. T. and Dentel, S. K., 1996, “The streaming current detector: a quantitative model”, Journal of Colloid and Interface Science182, 71-81, (pdf)
  • Ting, F. C. K. and Kirby, J. T., 1996, “Dynamics of surf-zone turbulence in a spilling breaker”, Coastal Engineering27, 131-160, doi:10.1016/0378-3839(95)00037-2.

1995

  • Wei, G. and Kirby, J. T., 1995, “A time-dependent numerical code for extended Boussinesq equations”, Journal of Waterway, Port, Coastal and Ocean Engineering121, 251-261, doi:10.1061/(ASCE)0733-950X(1995)121:5(251).
  • Kaihatu, J. M. and Kirby, J. T., 1995, “Nonlinear transformation of waves in finite water depth”, Physics of Fluids7,, 1903-1914, (pdf)
  • Wei, G., Kirby, J. T., Grilli, S. T. and Subramanya, R., 1995, “A fully nonlinear Boussinesq model for surface waves. I. Highly nonlinear, unsteady waves”, Journal of Fluid Mechanics294, 71-92, doi:10.1017/S0022112095002813.
  • Ting, F. C.-K. and Kirby, J. T., 1995, “Dynamics of surf-zone turbulence in a strong plunging breaker”, Coastal Engineering24, 177-204, doi:10.1016/0378-3839(94)00036-W.

1994

  • Lee, C. H. and Kirby. J. T., 1994, “Analytical comparison of time-dependent mild-slope equations”, Journal of the Korean Society of Coastal and Ocean Engineers6, 389-396.
  • Dalrymple, R. A., Kirby, J. T. and Martin, P. A., 1994, “Spectral methods for forward-propagating water waves in conformally-mapped channels”, Applied Ocean Research16, 249-266, doi:10.1016/S0141-1187(94)90015-9.
  • Ting, F. C. K. and Kirby, J. T., 1994, “Observations of undertow and turbulence in a laboratory surfzone”, Coastal Engineering24, 51-80, doi:10.1016/0378-3839(94)90026-4
  • Kirby, J. T., Dalrymple, R. A. and Kaku, H., 1994, “Parabolic approximations for water waves in conformal coordinate systems”, Coastal Engineering23, 185-213, doi:10.1016/0378-3839(94)90001-9

1993

  • Mase, H. and Kirby, J. T., 1993, “Hybrid model for nonlinear transformation of random waves”, Trans. Jap. Soc. Civ. Engrs., No. 479-25, 91-100. (in Japanese)
  • Kirby, J.T. and Lee, C., 1993, “Short waves in a rotating, shallow tank with bathymetry: a model equation in the mild-slope approximation”, SIAM J. Appl. Math.53, 1381-1400, (pdf)
  • Kirby, J. T., 1993, “A note on Bragg scattering of surface waves by sinusoidal bars”, Physics of Fluids A5, 380-386, (pdf)

1992

  • Dalrymple, R. A. and Kirby, J. T., 1992, “Angular spectrum modelling of water waves”, CRC Reviews in Aquatic Sciences6, 383-404.
  • Bailard, J. A., DeVries, J. W. and Kirby, J. T., 1992, “Considerations in using Bragg reflection for storm erosion protection”, J. Waterway, Port, Coastal and Ocean Engrng.118, 62-74, doi:10.1061/(ASCE)0733-950X(1992)118:1(62).

1991

  • Kirby, J. T., 1991, “Intercomparison of truncated series solutions for shallow water waves”, Journal of Waterway, Port, Coastal and Ocean Engineering117, 143-155, doi:10.1061/(ASCE)0733-950X(1991)117:2(143).

1990

  • Suh, K. D., Dalrymple, R. A. and Kirby, J. T., 1990, “An angular spectrum model for propagation of Stokes waves”, Journal of Fluid Mechanics221, 205-232, doi:10.1017/S0022112090003548.
  • Dalrymple, R. A., Munasinghe, L. C., Wood, D. H. and Kirby, J. T., 1990, “A very wide angle acoustic model for underwater sound propagation”, Journal of the Acoustical Society of America88, 1863-1876, (pdf)

1989

  • Kirby, J. T., 1989, “Propagation of surface waves over an undulating bed”, Physics of Fluids A1, 1898-1899, (pdf)
  • Kirby, J. T., 1989, “A note on parabolic radiation boundary conditions for elliptic wave calculations”, Coastal Engineering13, 211-218, (pdf)
  • Dalrymple, R. A., Suh, K., Kirby, J. T. and Chae, J. W., 1989, “Models for very wide-angle water waves and wave diffraction. Part 2. Irregular bathymetry”, Journal of Fluid Mechanics201, 299-322, doi:10.1017/S0022112089000959.
  • Kirby, J. T. and Chen, T-M., 1989, “Surface waves on vertically sheared flows: approximate dispersion relations”, Journal of Geophysical Research94, 1013-1027, (pdf)

1988

  • Kirby, J. T., 1988, “Parabolic wave computations in non-orthogonal coordinate systems”, Journal of Waterway, Port, Coastal and Ocean Engineering114, 673-685, doi:10.1061/(ASCE)0733-950X(1988)114:6(673).
  • Kirby, J. T. and Vengayil, P., 1988, “Non-resonant and resonant reflection of long waves in varying channels”, Journal of Geophysical Research93, 10782-10796, (pdf)
  • Dalrymple, R. A. and Kirby, J. T., 1988, “Models for very wide-angle water waves and wave diffraction”, Journal of Fluid Mechanics192, 33-50, doi:10.1017/S0022112088001776.
  • Kirby, J. T., 1988, “Current effects on resonant reflection of surface water waves by sand bars”, Journal of Fluid Mechanics186, 501-520, doi:10.1017/S0022112088000242.

1987

  • Kirby, J. T., Dalrymple, R. A. and Seo, S. N., 1987, “Propagation of obliquely incident water waves over a trench 2. Currents flowing along the trench”, Journal of Fluid Mechanics176, 95-116, doi:10.1017/S0022112087000582.

1986

  • Kirby, J. T., 1986, “Rational approximations in the parabolic equation method for water waves”, Coastal Engineering10, 355-378, doi:10.1016/0378-3839(86)90021-9
  • Kirby, J. T., 1986, “Open boundary condition in the parabolic equation method”, Journal of Waterway, Port, Coastal and Ocean Engineering112, 460-465, doi:10.1061/(ASCE)0733-950X(1986)112:3(460)
  • Kirby, J. T. and Dalrymple, R. A., 1986, “An approximate model for dispersion in monochromatic wave propagation models”, Coastal Engineering9, 545-561, 1986, doi:10.1016/0378-3839(86)90003-7 and reply to discussions, 11, 87-92, 1987,  doi:10.1016/0378-3839(87)90041-X
  • Dalrymple, R. A. and Kirby, J. T., 1986, “Water waves over ripples”, Journal of Waterway, Port, Coastal and Ocean Engineering112, 309-319, doi:10.1061/(ASCE)0733-950X(1986)112:2(309).
  • Kirby, J. T., 1986, “Higher-order approximations in the parabolic equation method for water waves”, Journal of Geophysical Research91, 933-952, (pdf)
  • Kirby, J. T. and Dalrymple, R. A., 1986, “Modelling waves in surfzones and around islands”, Journal of Waterway, Port, Coastal and Ocean Engineering112, 78-93, doi:10.1061/(ASCE)0733-950X(1986)112:1(78).
  • Kirby, J. T., 1986, “On the gradual reflection of weakly-nonlinear Stokes waves in regions with varying topography”, Journal of Fluid Mechanics162, 187-209, doi:10.1017/S0022112086002008.
  • Kirby, J.T., 1986, “A general wave equation for waves over rippled beds”, Journal of Fluid Mechanics162, 171-186, doi:10.1017/S0022112086001994.

1985

  • Liu, P.L.-F., Yoon, S.B. and Kirby, J.T., 1985, “Nonlinear refraction-diffraction of waves in shallow water”, Journal of Fluid Mechanics153, 184-201, doi:10.1017/S0022112085001203.

1984

  • Kirby, J.T. and Dalrymple, R.A., 1984, “Verification of a parabolic equation for propagation of weakly-nonlinear waves”, Coastal Engineering8, 219-232, doi:10.1016/0378-3839(84)90002-4
  • Dalrymple, R.A., Kirby, J.T. and Hwang, P.A., 1984, “Wave diffraction due to areas of energy dissipation”, Journal of Waterway, Port, Coastal and Ocean Engineering110, 67-79, doi:10.1061/(ASCE)0733-950X(1984)110:1(67).
  • Kirby, J.T., 1984, “A note on linear surface wave-current interaction over slowly varying topography”, Journal of Geophysical Research89, 745-747, (pdf)

1983

  • Kirby, J.T. and Dalrymple, R.A., 1983, “A parabolic equation for the combined refraction-diffraction of Stokes waves by mildly-varying topography”, Journal of Fluid Mechanics136, 453-466, doi:10.1017/S0022112083002232.
  • Kirby, J.T. and Dalrymple, R.A., 1983, “Oblique envelope solutions of the Davey-Stewartson equations in intermediate water depth”, Physics of Fluids26, 2916-2918
  • Kirby, J.T. and Dalrymple, R.A., 1983, “Propagation of obliquely incident water waves over a submerged trench”, Journal of Fluid Mechanics133, 47-63, doi:10.1017/S0022112083001780.

1981

  • Kirby, J.T., Dalrymple, R.A. and Liu, P.L.-F., 1981, “Modification of edge waves by barred-beach topography”, Coastal Engineering5, 35-49, doi:10.1016/0378-3839(81)90003-X

Google Scholar

2022

  • Khan, MR, HA Michael, EW Bresnyan, W Yu (2022) Impacts of basin-wide irrigation pumping on dry-period stream baseflow in an alluvial aquifer with high seasonality, Hydrogeology Journal, in press.
  • Paldor, A, R Frederiks, HA Michael (2022) Dynamic steady state in coastal aquifers is driven by multi-scale cyclical processes, controlled by aquifer storativity, Geophysical Research Letters, https://doi.org/10.1029/2022GL098599.
  • Kim, KH, JW Heiss, HA Michael, WJ Ullman, W-J Cai (2022) Seasonal and spatial production patterns of dissolved inorganic carbon and total alkalinity in a shallow beach aquifer, Frontiers in Marine Science, 775.
  • Steel, E, C Paola, A Chadwick, J Hariharan, P Passalacqua, Z Xu, HA Michael, H Brommecker, E Hajek (2022) Reconstructing subsurface sandbody connectivity from temporal evolution of surface networks, Basin Research, doi:10.1111/bre.12668.
  • Peters, CN, C Kimsal, RS Frederiks, A Paldor, R McQuiggan, HA Michael (2022) Groundwater pumping causes salinization of coastal streams due to baseflow depletion: Analytical framework and application to Savannah River, GA, Journal of Hydrology, doi:10.1016/j.jhydrol.2021.127238.

2021

  • Yu, X, HA Michael (2021) Impacts of upscaling hydraulic conductivity on simulated salinity and saltwater circulation in heterogeneous coastal aquifers, Water Resources Research, doi:10.1029/2020WR029523.
  • Geng, X, HA Michael (2021) Alongshore movement of groundwater and its effects on seawater-groundwater interactions in heterogeneous coastal aquifers, Water Resources Research, 57, e2021WR031056, doi:10.1029/2021WR031056.
  • Gerges, F, H Nassif, X Geng, HA Michael, M Boufadel (2021) GIS-based approach for evaluating a community intrinsic resilience index, Natural Hazards, doi: 10.1007/s11069-021-05094-w.
  • Stein, S, HA Michael, B Dugan (2021) Injection of desalination brine into the saline part of the coastal aquifer; environmental and hydrological implications, Water Research, doi:10.1016/j.watres.2021.117820.
  • Geng, X, JW Heiss, HA Michael, H Li, B Raubenheimer, M Boufadel (2021) Geochemical fluxes in sandy coastal aquifers: Modulation due to major physical stressors and geologic heterogeneity, and nearshore morphology, Earth Science Reviews, doi:10.1016/j.earscirev.2021.103800.
  • Xu, Z, Hariharan, J, P Passalacqua, C Paola, E Steel, HA Michael (2021) Linking the Surface and Subsurface in River Deltas Part 2: Relating Subsurface Geometries and Groundwater Flow and Transport Behavior, Water Resources Research, doi: 10.1029/2020WR029281.
  • Hariharan, J, Z Xu, HA Michael, C Paola, E Steel, P Passalacqua (2021) Linking the Surface and Subsurface in River Deltas Part 1: Relating Surface and Subsurface Geometries, Water Resources Research, doi: 10.1029/2020WR029282.
  • Garcia-Orellana, J, V Rodellas Vila, J Tamborski, M Diego-Feliu, P van Beek, Y Weinstein, M Charette, A Alorda-Kleinglass, HA Michael, T Stieglitz, J Sholten (2021) Ra isotopes as submarine groundwater discharge (SGD) tracers: review and recommendations, Earth Science Reviews, doi:10.1016/j.earscirev.2021.103681.
  • Paldor, A, HA Michael (2021) Storm surges cause simultaneous salinization and freshening of coastal aquifers, exacerbated by climate change, Water Resources Research, 57, e2020WR029213, doi:10.1029/2020WR029213.
  • Brooks, TW, KD Kroeger, HA Michael, JK York (2021) Oxygen-controlled recirculating seepage meter reveals extent of nitrogen transformation in discharging coastal groundwater at the aquifer-estuary interface, Limnology and Oceanography, doi:10.1002/lno.11858.
  • Rocha, C*, CE Robinson, IR Santos, H Waska, HA Michael, HJ Bokuniewikz (2021) A place for subterranean estuaries in the coastal zone, Estuarine, Coastal and Shelf Science, doi:10.1016/j.ecss.2021.107167.
  • Guimond, JA, HA Michael* (2021) Effects of marsh migration on flooding, saltwater intrusion, and crop yield in coastal agricultural land subject to storm surge inundation, Water Resources Research (joint special issue with Journal of Geophysical Research – Oceans), doi:10.1029/2020WR028326.
  • Micallef, A*, M Person, C Berndt, C Bertoni, D Cohen, B Dugan, R Evans, A Haroon, C Hensen, M Jegen, K Key, H Kooi, V Liebetrau, J Lofi, BJ Mailloux, R Martin-Nagle, HA Michael, T Müller, M Schmidt, K Schwalenberg, E Trembath-Reichert, B Weymer, Y Zhang, AT Thomas (2021) Offshore freshened groundwater in continental margins, Reviews of Geophysics, doi:10.1029/2020RG000706.

2020

  • Geng, X, JW Heiss, HA Michael, MC Boufadel*, K Lee (2020) Groundwater flow and moisture dynamics in the swash zone: effects of heterogeneous hydraulic conductivity and capillarity, Water Resources Research, doi:10.1029/2020WR028401.
  • Kim, KH, JW Heiss, X Geng, HA Michael* (2020) Modeling hydrologic controls on particulate organic carbon contributions to beach aquifer biogeochemical activity, Water Resources Research, doi:10.1029/2020WR027306.
  • Geng, X*, HA Michael, MC Boufadel, FJ Molz, F Gerges, K Lee (2020) Heterogeneity affects intertidal flow topology in coastal beach aquifers, Geophysical Research Letters, doi:10.1029/2020GL089612.
  • Duke, JM*, Z Liu, JF Suter, KD Messer, HA Michael (2020) Some taxes are better than others: An economic experiment analyzing groundwater management in a spatially explicit aquifer, Water Resources Research, doi:10.1029/2019WR026426.
  • Seyfferth, AL*, F Bothfield, R Vargas, JW Stuckey, J Wang, K Kearns, HA Michael, J Guimond, X Yu, DL Sparks (2020) Spatial and temporal heterogeneity of geochemical controls on carbon cyling in a tidal salt marsh, Geochimica et Cosmochimica Acta, doi:10.1016/j.gca.2020.05.013.
  • Heiss, JW*, HA Michael, M Koneshloo (2020) Denitrification hotspots in intertidal mixing zones linked to geologic heterogeneity, Environmental Research Letters, doi:10.1088/1748-9326/ab90a6.
  • Heiss, JW*, HA Michael, J Puleo (2020) Groundwater-surface water exchange in the intertidal zone detected by hydrologic and coastal oceanographic measurements, Hydrological Processes, doi: 10.1002/hyp.13825.
  • Mozumder, MRH*, HA Michael, I Mihajlov, MR Khan, PSK Knappett, BC Bostick, BJ Mailloux, KM Ahmed, I Choudhury, T Koffman, T Ellis, K Whaley-Martin, R San Pedro, G Slater, M Stute, P Schlosser, and A van Geen (2020) Origin of groundwater arsenic in a rural Pleistocene aquifer in Bangladesh depressurized by distal municipal pumping, Water Resources Research, doi:10.1029/2020WR027178. (Selected for EOS Editor’s Highlight, ”Arsenic pollution in Bangladesh is catching up with deeper wells”, Marc Bierkens, 3 August 2020).
  • Geng, X, HA Michael* (2020) Preferential flow enhances pumping-induced saltwater intrusion in volcanic aquifers, Water Resources Research (joint special issue with Journal of Geophysical Research – Oceans), doi:10.1029/2019WR026390.
  • Kreyns, P, X Geng, HA Michael* (2020) The influence of connected heterogeneity on groundwater flow and salinity distributions in coastal volcanic aquifers, Journal of Hydrology, doi:10.1016/j.jhydrol.2020.124863.
  • Guimond, JA, X Yu, AL Seyfferth, HA Michael* (2020) Using hydrological-biogeochemical linkages to elucidate carbon dynamics in coastal wetlands subject to relative sea-level rise, Water Resources Research (joint special issue with Journal of Geophysical Research – Oceans), doi:10.1029/2019WR026302.
  • Duque, C*, HA Michael, AM Wilson (2020) The subterranean estuary: Technical term, simple analogy, or source of confusion?, Water Resources Research (joint special issue with Journal of Geophysical Research – Oceans), https://doi.org/10.1029/2019WR026554.
  • Guimond, JA, A Seyfferth, KB Moffett, and HA Michael* (2020) Positive feedback between crabs and carbon efflux in coastal marshes, Environmental Research Letters, https://doi.org/10.1088/1748-9326/ab60e2.

2019

  • Khan, MR*, HA Michael*, B Nath, BL Huhmann, I Choudhury, M Chakraborty, A Mukherjee, KM Ahmed, BC Bostick, CF Harvey, A van Geen (2019) Young, arsenic-rich groundwater in deep tubewells in the southwestern Bengal Basin caused by a lithologically controlled deep flow system, Geophysical Research Letters, 46, 13062-13071, https://doi.org/10.1029/2019GL084767.
  • Duque, C*, K Knee, CJ Russoniello, M Sherif, O Aborisha, NC Sturchio, HA Michael (2019) Characterizing small-scale spatial variability of radium isotopes in submarine groundwater discharge, Journal of Hydrology, doi:10.1016/j.jhydrol.2019.124192.
  • Xiao, K*, H Li, Y Xia, AM Wilson, HA Michael, X Geng, E Smith, MC Boufadel, P Yuan, X Wang (2019) Effects of tidally-varying salinity on groundwater flow and salt transport: insights from modelling an idealized creek-marsh aquifer, Water Resources Research, doi:10.1029/2018WR024671.
  • Kim, KH, HA Michael*, EK Field, WJ Ullman (2019) Hydrologic shifts create complex transient distributions of particulate organic carbon and biogeochemical responses in beach aquifers, Journal of Geophysical Research – Biogeosciences, doi:10.1029/2019JG005114.
  • Yu, X, HA Michael* (2019) Mechanisms, configuration typology, and vulnerability of pumping-induced seawater intrusion in heterogeneous aquifers, Advances in Water Resources, doi: 10.1016/j.advwatres.2019.04.013.
  • Yu, X, HA Michael* (2019) Offshore pumping impacts coastal groundwater resources and land subsidence, Geophysical Research Letters, 46, 5, 2553-2562, doi:10.1029/2019GL081910. (Selected for EOS Editor’s Highlight, ”Pumping Offshore Groundwater Resources has Consequences on Land”, M. Bayani Cardenas, 22 March, 2019; GRL top 10% most downloaded article of 2018-2019).

2018

  • Provost, AM*, AD Werner, VEA Post, HA Michael, CD Langevin (2018) Rebuttal to “The case of the Biscayne Bay and aquifer near Miami, Florida: density-driven flow of seawater or gravitationally driven discharge of deep saline groundwater?” by Weyer (Environ Earth Sci 2018, 77:1-16), Environmental Earth Sciences, 77:710, doi: 10.1007/s12665-018-7832-5.
  • Suter, JF*, S Collie, JM Duke, KD Messer, and HA Michael (2018) Common pool resource management at the extensive and intensive margins: Experimental evidence, Environmental and Resource Economics, doi: 10.1007/s10640-018-0283-3.
  • Russoniello, CJ, JW Heiss, HA Michael* (2018) Variability in benthic exchange rate, mixing zone depth, and residence time in a shallow coastal estuary, Journal of Geophysical Research – Oceans, doi: 10.1002/2017JC013568.
  • Koneshloo, M*, P Kreyns, HA Michael (2018) Combining process-based and surface-based models to simulate subsurface heterogeneity in volcanic aquifers, Stochastic Environmental Research and Risk Assessment, doi: 10.1007/s00477-018-1511-7.
  • Yang, J*, H Zhang, X Yu, T Graf, HA Michael (2018) Assessing the impact of subsurface properties on groundwater salinization due to storm surge inundation, Advances in Water Resources, doi: 10.1016/j.advwatres.2017.11.017.

2017

  • Geng, X, JW Heiss, HA Michael, MC Boufadel* (2017) Subsurface flow and moisture dynamics in response to swash motions: Effects of beach hydraulic conductivity and capillarity, Water Resources Research, 58, 10317–10335, doi:10.1002/2017WR021248.
  • Heiss, JW, VEA Post, T Laattoe, CJ Russoniello, HA Michael* (2017) Physical controls on biogeochemical processes in intertidal zones of beach aquifers, Water Resources Research, 53(11), 9225–9244, doi: 10.1002/2017WR021110.
  • Kim, KH, JW Heiss, HA Michael*, W-J Cai, VEA Post, T Laattoe, WJ Ullman (2017) Spatial patterns of porewater reactivity in an intertidal beach aquifer, Journal of Geophysical Research – Biogeosciences, 122 (10), 2548-2562, doi:10.1002/2017JG003943 (Selected for EOS Research Spotlight, Underwood, E. (2017), Sandy beaches are hotbeds of biochemical activity, Eos, 98, doi:10.1029/2017EO087591).
  • Michael, HA*, VEA Post, AM Wilson, AD Werner (2017) Science, society, and the coastal groundwater squeeze, Water Resources Research, 53 (4), 2610-2617, doi:10.1002/2017WR020851. (Part of the Earth and Space Science special collection, ”Earth and Space Science is Essential for Society”)

2016

  • Michael, HA*, MR Khan (2016) Impacts of physical and chemical aquifer heterogeneity on basin-scale solute transport: Vulnerability of deep groundwater to arsenic contamination in Bangladesh, Advances in Water Resources, 98, 147-158, doi:10.1016/j.advwatres.2016.10.010.
  • Michael, HA*, KC Scott, M Koneshloo, X Yu, MR Khan, K Li (2016) Geologic influence on groundwater salinity drives large seawater circulation through the continental shelf, Geophysical Research Letters, 43, doi:10.1002/2016GL070863.
  • Khan, MR, M Koneshloo, PSK Knappett, KM Ahmed, BC Bostick, BJ Mailloux, A Zahid, CF Harvey, A van Geen, and HA Michael* (2016) Mega-city pumping and preferential flow threaten groundwater quality, Nature Communications, 7:12833, doi:10.1038/ncomms12833.
  • Yu, X, J Yang, T Graf, M Koneshloo, MA O’Neal, HA Michael* (2016) Impact of topography on groundwater salinization due to ocean surge inundation, Water Resources Research, 52, 5794-5812, doi: 10.1002/2016WR018814. (Publication highlights: AGUniverse 7(15), AGUniverse 7(18). HydroGeoSphere Research Highlight: http://www.aquanty.com/blog/2016/9/19/hgs-research-highlight-topographic-control-on-groundwater-salinization-due-to-ocean-surge-inundation. Figure used as Cover Art)
  • Knappett, PSK*, BJ Mailloux, I Choudhury, MR Khan, HA Michael, S Barua, DR Mondal, MS Steckler, H Akhter, KM Ahmed, B Bostick, CF Harvey, M Shamsudduha, I Mihajlov, MR Mozumder, and A van Geen (2016) Vulnerability of intermediate and deep low-arsenic aquifers to municipal pumping in Bangladesh, Journal of Hydrology, doi:10.1016/j.jhydrol.2016.05.035.
  • Sawyer, AH*, HA Michael, AW Schroth (2016) From soil to sea: The role of groundwater in coastal critical zone processes, WIREs Water, 3(5), 706–726, doi:10.1002/wat2.1157. Figure used as Cover Art.
  • Russoniello, CJ, LF Konikow, KD Kroeger, C Fernandez, AS Andres, and HA Michael* (2016) Hydrogeologic controls on groundwater discharge and nitrogen loads in a coastal watershed, Journal of Hydrology, 538, 783-793, doi:10.1016/j.jhydrol.2016.05.013.

2015

  • Heiss, JW, JA Puleo, WJ Ullman, and HA Michael* (2015) Coupled surface-subsurface hydrologic measurements reveal infiltration, recharge, and discharge dynamics across the swash zone of a sandy beach, Water Resources Research, 51, 8834-8853, doi:10.1002/2015WR017395.
  • McAllister, SM, JM Barnett, JW Heiss, AJ Findlay, DJ MacDonald, CL Dow, GW Luther III, HA Michael, and CS Chan* (2015) Dynamic hydrologic and biogeochemical processes drive microbially enhanced iron and sulfur cycling within the intertidal mixing zone of a beach aquifer, Limnology & Oceanography, 60 (1), 329-345, doi:10.1002/lno.10029.
  • Russoniello, CJ and HA Michael* (2015) Investigation of seepage meter measurements in steady flow and wave conditions, Groundwater, 53, 959-966, doi:10.1111/gwat.12302.

2014

  • Heiss, JW and HA Michael* (2014) Saltwater-freshwater mixing dynamics in a sandy beach aquifer on tidal, spring-neap, and seasonal cycles, Water Resources Research, 50, 6747–6766, doi:10.1002/2014WR015574. (Selected for EOS Research Spotlight, EOS 96, doi:10.1029/2015EO023175, 4 February 2015; WRR Editor’s Choice Award 2014)
  • Li, J, HA Michael*, JM Duke, KD Messer, and JF Suter (2014) Impact of risk information in a spatially explicit groundwater environment with contamination risk: Experimental evidence, Water Resources Research, 50, 6390–6405, doi:10.1002/2013WR015230.
  • Sawyer, AH*, LA Kaplan, O Lazareva, and HA Michael (2014) Hydrologic dynamics and geochemical responses within a floodplain aquifer and hyporheic zone during Hurricane Sandy, Water Resources Research, 50, 4877–4892, doi:10.1002/2013WR015101.
  • Liu, Z, KD Messer*, JM Duke, HA Michael, and JF Suter (2014) Strategic entry and externalities in groundwater resources: Evidence from the lab, Resource and Energy Economics, 38, 181-197, doi:10.1016/j.reseneeco.2014.07.002.
  • Sawyer, AH*, O Lazareva, KD Kroeger, K Crespo, CS Chan, T Stieglitz, and HA Michael (2014) Stratigraphic controls on fluid and solute fluxes across the sediment-water interface of an estuary, Limnology & Oceanography, 59, 997–1010, doi:10.4319/lo.2014.59.3.0997.
  • Heiss, JW, WJ Ullman, and HA Michael* (2014) Swash zone moisture dynamics and unsaturated infiltration in two sandy beach aquifers, Estuarine, Coastal and Shelf Science, 143, 20-31, doi: 10.1016/j.ecss.2014.03.015.
  • Khan, MR, CI Voss, W Yu, and HA Michael* (2014) Water resources management in the Ganges Basin: A comparison of three strategies for conjunctive use of groundwater and surface water, Water Resources Management, 28, 1235-1250, doi:10.1007/s11269-014-0537-y.

2013

  • Michael, HA* (2013) An arsenic forecast for China, Science, 341, 852-853, doi:10.1126/science.1242212.
  • Russoniello, CJ, C Fernandez, JF Bratton, DE Krantz, JF Banaszak, AS Andres, LF Konikow, and HA Michael* (2013) Geologic effects on groundwater salinity and discharge into an estuary, Journal of Hydrology, 498, 1-12, doi:10.1016/j.jhydrol.2013.05.049.
  • Michael, HA*, CJ Russoniello, and LA Byron (2013) Global assessment of vulnerability to sea-level rise in topography-limited and recharge-limited coastal groundwater systems, Water Resources Research, 49, 2228–2240, doi:10.1002/wrcr.20213.
  • Sahu, P*, HA Michael, CI Voss, and PK Sikdar (2013) Impacts on groundwater recharge areas of megacity pumping: Analysis of potential contamination of Kolkata, India, water supply, Hydrological Sciences, 58, 1340-1360, doi:10.1080/02626667.2013.813946.
  • Sawyer, AH*, F Shi, J Kirby, and HA Michael (2013) Dynamic response of surface water-groundwater exchange to currents, tides, and waves in a shallow estuary, Journal of Geophysical Research – Oceans, 118, 1-10, doi:10.1002/jgrc.20154.
  • Konikow, LF*, M Akhavan, CD Langevin, HA Michael, and AH Sawyer (2013) Seawater circulation in sediments driven by interactions between seabed topography and fluid density, Water Resources Research, 49, 1-14, doi:10.1002/wrcr.20121.

2012

  • Suter, J*, K Messer, J Duke, and HA Michael (2012) Behavior in a spatially-explicit groundwater resource: Evidence from the lab, American Journal of Agricultural Economics, 94, 1094-1112, doi: 10.1093/ajae/aas058.

2011

  • Radloff, KA*, Y Zheng, HA Michael, M Stute, BC Bostick, I Mihajlov, M Bounds, MR Huq, I Choudhury, MW Rahman, P Schlosser, KM Ahmed, and A van Geen (2011) Arsenic migration to deep groundwater in Bangladesh influenced by adsorption and water demand, Nature Geoscience, 4, 793-798, doi: 10.1038/NGEO1283.
  • Michael, HA*, MA Charette, and CF Harvey (2011) Patterns and variability of groundwater flow and radium activity at the coast: a case study from Waquoit Bay, Massachusetts, Marine Chemistry, 127, 100-114, doi:10.1016/j.marchem.2011.08.001.

2010

  • Fendorf, SF*, HA Michael, and A van Geen (2010) Factors controlling the spatial and temporal variations of arsenic in groundwater of South and Southeast Asia, Science, 328, 1123-1127, doi: 10.1126/science.1172974.
  • Michael, HA*, H Li, A Boucher, T Sun, J Caers, and SM Gorelick (2010) Combining geologic-process models and geostatistics for conditional simulation of 3-D subsurface heterogeneity, Water Resources Research, 46, W05527, doi:10.1029/2009WR008414. (Selected for EOS Research Spotlight, EOS 9, doi:10.1029/EO091i028p00252-05, 13 July 2010)
  • Burgess WG*, MA Hoque, HA Michael, CI Voss, GN Breit, and KM Ahmed (2010) Vulnerability of deep groundwater in the Bengal Aquifer System to contamination by arsenic, Nature Geoscience, 3, 83-97, doi: 10.1038/ngeo750.

2009

  • Michael, HA* and CI Voss (2009) Controls on groundwater flow in the Bengal Basin of India and Bangladesh: regional modeling analysis, Hydrogeology Journal, 17, 1561-1577, doi:10.1007/s10040-008-0429-4.
  • Michael, HA* and CI Voss (2009) Estimation of regional-scale groundwater flow properties in the Bengal Basin of India and Bangladesh, Hydrogeology Journal, 17, 1329-1346, doi:10.1007/s10040-009-0443-1.

2008

  • Michael, HA* and CI Voss (2008) Evaluation of the sustainability of deep groundwater as an arsenic-safe resource in the Bengal Basin, Proceedings of the National Academy of Sciences, 105, 8531-8536, doi: 10.1073/pnas.0710477105. (Selected for PNAS ‘In This Issue’ and Nature Research Highlight, Nature, 453, 19 June, 2008).

2006

  • Harvey, CF*, AN Khandaker, W Yu, ABM Badruzzaman, MA Ali, PM Oates, HA Michael, RB Neumann, R Beckie, S Islam, and MF Ahmed (2006) Groundwater dynamics and arsenic contamination in Bangladesh, Chemical Geology, 228, 112-136, doi:10.1016/j.chemgeo.2005.11.025.

2005

  • Michael, HA, AE Mulligan, and CF Harvey* (2005) Seasonal oscillations in water exchange between aquifers and the coastal ocean, Nature, 436, 1145-1148, doi:10.1038/nature03935.

2003

  • Michael, HA, JS Lubetsky, and CF Harvey* (2003) Characterizing submarine groundwater discharge: a seepage meter study in Waquoit Bay, Massachusetts, Geophysical Research Letters, 30, 1297, doi: 10.1029/2002GL016000.

Google Scholar

2020

  • Heiss, J.W.,  H. A. Michael, and J.A. Puleo. 2020. Groundwater-surface water exchange in the intertidal zone detected by hydrologic and coastal oceanographic measurements, Hydrological Processes, https://doi.org/10.1002/hyp.13825.
  • Puleo, J.A., D. Cristaudo, A. Torres-Freyermuth and G. Masselink. 2020. The role of alongshore flows on inner surf and swash zone hydrodynamics on a dissipative beach, Continental Shelf Research, https://doi.org/10.1016/j.csr.2020.104134
  • Puleo, J.A. and P. Chardon-Maldonado. 2020. Bundlecuss: Cable entanglement lessons learned from a nor’easter field deployment, Journal of Coastal Research,  101(sp1), 359-362.
  • Puleo, J.A. 2020. A design-based fluids mechanics laboratory, Global Journal of Engineering Education, 22(1), 26-31.
  • Cristaudo, D. and J.A. Puleo. 2020. Observation of migration and burial of munitions in the swash zone, Ocean Engineering, https://doi.org/10.1016/j.oceaneng.2020.107322.
  • Roberts-Briggs, T., J. Figlus, A. Torres Freyermuth, J.A. Puleo, W. Warren and T. Alrushaid. 2020. Variability in onshore sediment transport on a natural beach during a Central American cold surge event, Journal of Coastal Research, 36(3), 487-497.

2019

  • Torres-Freyermuth, A., J.C. Pintado-Patino, A. Pedrozo-Acuna, J.A. Puleo and T.E. Baldock. 2019. Runup uncertainty on planar beaches, Ocean Dynamics, https://doi.org/10.1007/s10236-019-01305-y
  • Borrell, S. and J.A. Puleo, 2019. In situ hydrodynamic and morphodynamics measurements during extreme events, Shore & Beach, 87(4), 23-30. http://doi.org/10.34237/1008743.
  • Coogan, J.S., B.M. Webb, S. Smallegan, and J.A. Puleo. 2019. Geomorphic changes measured on Dauphin Island, AL during Hurricane Nate, Shore & Beach, 87(4), 16-22. http://doi.org/10.34237/1008742.
  • Howe, D., C.E. Blenkinsopp, I.L. Turner, T.E. Baldock, and J.A. Puleo. 2019. Direct measurements of bed shear stress under swash flows on steep laboratory slopes at medium to prototype scales, Journal of Marine Science and Engineering, 7(10), 358; https://doi.org/10.3390/jmse7100358.
  • Kim, Y., R.S. Mieras, Z. Cheng, D. T.–J. Hsu, J.A. Puleo, D. Cox. 2019. A numerical study of sheet flow driven by velocity and acceleration skewed near-breaking waves on a sandbar using SedWaveFoam, Coastal Engineering, 152, https://doi.org/10.1016/j.coastaleng.2019.103526.
  • Doelp, M., J.A. Puleo and N.G. Plant. 2019. Predicting Surf Zone Injuries along the Delaware Coast Using a Bayesian Network, Natural Hazards, https://doi.org/10.1007/s11069-019-03697-y
  • Mieras, R.S., J.A. Puleo, D. Anderson, T-J. Hsu, D. Cox and J. Calantoni. 2019. Relative contributions of bed load and suspended load to sediment transport on a sandbar, Journal of Geophysical Research, https://doi.org/10.1029/2018JC014564.

2018

  • Fromant, G., R.S. Mieras, T. Revil-Baudard, J.A. Puleo, D. Hurther, J. Chauchat. 2018. On Bedload and Suspended Load Measurement Performances in Sheet Flows Using Acoustic and Conductivity Profilers, Journal of Geophysical Research – Earth Surface, 123 (10), 2546-2562.
  • Bruder, B., D. Cristaudo, and J.A. Puleo. 2018. Smart surrogate munitions for nearshore unexploded ordnance mobility/burial studies, IEEE Journal of Oceanic Engineering, 99, 1-20 (https://doi.org/10.1109/JOE.2018.2871227).
  • Figlus, J., Y-K. Song, P. Chardon-Maldonado, J.A. Puleo. 2018. Numerical  simulation of post-storm recovery and time-averaged swash velocity on an engineered beach with ridge-runnel system, International Journal of Offshore and Polar Engineering, 28(2), 143-153 (https://doi.org/10.17736/ijope.2018.ak25).
  • Doelp, M., J.A. Puleo, P. Cowan, M. Arford-Granholm. 2018. Characterizing surf zone injuries from the five most populated beaches on the Atlantic-fronting Delaware coast, American Journal of Emergency Medicine, 36(8), 1372-1379(https://doi.org/10.1016/j.ajem.2017.12.053).

2017

  • Torres-Freyermuth, A., J. A. Puleo, N. DiCosmo, M.E. Allende-Arandia, P. Chardon-Maldonado, J. Lopez, B. Figueroa-Espinoza, A. Ruiz de Alegria Arzaburu, J. Figlus, T. M. Roberts and J. Candela. 2017. Nearshore circulation on a sea breeze dominated beach during intense wind events, Continental Shelf Research, 151, 40-52 (https://doi.org/10.1016/j.csr.2017.10.008).
  • Puleo, J.A., D. Krafft, J.C. Pintado-Patiño, and B. Bruder. 2017. Video-derived near bed and sheet flow sediment particle velocities in dam-break-driven swash, Coastal Engineering, 126, 27-36 (https://doi.org/10.1016/j.coastaleng.2017.04.008)
  • Martins, K., C. E. Blenkinsopp, H. E. Power, B. Bruder, J. A. Puleo, and E. W. J. Bergsma. 2017. High-resolution monitoring of wave transformation in the surf zone using a LiDAR scanner array, Coastal Engineering, 128, 37-43 (https://doi.org/10.1016/j.coastaleng.2017.07.007)
  • Anderson, D., D.T. Cox, R. Mieras, J.A. Puleo and T-J. Hsu. 2017. Observations of wave-induced pore pressure gradients and bed level response on a surf zone sandbar, Journal of Geophysical Research, 122, 5169-5193, 10.1002/2016JC012557 (http://onlinelibrary.wiley.com/doi/10.1002/2016JC012557/epdf).
  • Kim, Y., Z. Zhou, Hsu, T-J. and J.A. Puleo. 2017. Large eddy simulation of dam-break driven swash on a rough planar beach, Journal of Geophysical Research, 10.1002/2016JC012366 (http://onlinelibrary.wiley.com/doi/10.1002/2016JC012366/epdf).
  • Pieterse, A., J.A. Puleo, T.E. McKenna and J. Figlus. 2017. In situ measurements of shear stress, erosion and deposition in man-made tidal channels within a tidal saltmarsh. Estuarine, Coastal and Shelf Science, 192, 29-41 (https://doi.org/10.1016/j.ecss.2017.04.028)
  • Mieras, R., J.A. Puleo, D. Anderson, D.T. Cox and T.J. Hsu. 2017. Large-scale experimental observations of sheet flow on a sandbar under skewed-asymmetric waves, Journal of Geophysical Research, 122, 5022-5045, 10.1002/2016JC012438 (http://onlinelibrary.wiley.com/doi/10.1002/2016JC012438/epdf).

2016

  • Pieterse, A., J.A. Puleo and T.E. McKenna. 2016. Hydrodynamics and sediment suspension in shallow tidal channels intersecting a tidal flat, Continental Shelf Research, 119, 40-55 (https://doi.org/10.1016/j.csr.2016.03.012).
  • Ruju, A. D. Conley, G. Masselink, M. Austin and J.A. Puleo. 2016, Sediment transport dynamics in the swash zone under large-scale laboratory conditions, Continental Shelf Research, 10.1016/j.csr.2016.03.015 (https://doi.org/10.1016/j.csr.2016.03.015).

2015

  • Chardon-Maldonado, P., J.C. Pintado-Patino and J.A. Puleo. 2015. Advances in swash zone research: Small-scale hydrodynamics and sediment transport processes. Coastal Engineering, doi:10.1016/j.coastaleng.2015.10.008 (https://doi.org/10.1016/j.coastaleng.2015.10.008).
  • Puleo, J.A. and A. Torres-Freyermuth. 2015. The second international workshop on swash-zone processes, Coastal Engineering, doi:10.1016/j.coastaleng.2015.09.007 (https://doi.org/10.1016/j.coastaleng.2015.09.007).
  • Masselink, G., A. Ruju, D. Conley, I. Turner, G. Ruessink, A. Matias, C. Thompson, B. Castelle, G. Wolters, J.A. Puleo and V. Citerone. 2015. Large-scale barrier dynamics experiment II (BARDEX II): Experimental design, instrumentation, test programme and data set, Coastal Engineering, doi:10.1016/j.coastaleng.2015.07.009 (https://doi.org/10.1016/j.coastaleng.2015.07.009).
  • Ruju, A., D. Conley, G. Masselink, M. Austin, J.A. Puleo, T. Lanckriet and D. Foster. 2015. Boundary layer dynamics in the swash zone under large-scale laboratory conditions, Coastal Engineering, doi:10.1016/j.coastaleng.2015.08.001 (https://doi.org/10.1016/j.coastaleng.2015.08.001).
  • Puleo, J.A., K. Hutschenreuter, P. Cowan, W. Carey, M. Arford-Granholm, K. K. McKenna. 2015. Delaware surf zone injuries and associated environmental conditions, Natural Hazards, 81(2), 845-867, doi:10.1007/s11069-015-2108-9 (https://link.springer.com/article/10.1007/s11069-015-2108-9).
  • Heiss, J.W., J.A. Puleo, W.J. Ullman and H.A. Michael. 2015. Coupled surface-subsurface hydrologic measurements reveal recharge and discharge dynamics across the swash zone of a sandy beach, Water Resources Research, 10.1002/2015WR017395 (http://onlinelibrary.wiley.com/doi/10.1002/2015WR017395/epdf).
  • Pintado-Patino, J.C., A. Torres-Freyermuth, J.A. Puleo and D. Pokrajac. 2015. On the role of infiltration and exfiltration in swash zone boundary layer dynamics in the swash zone, Journal of Geophysical Research, 10.1002/2015JC010806 (http://onlinelibrary.wiley.com/doi/10.1002/2015JC010806/epdf).
  • Ruessink, B. G., C. Blenkinsopp, J. Brinkkemper, B. Castelle, B. Dubarbier, F. Grasso, J. A. Puleo, T. Lanckriet and G. Masselink. 2015. Sandbar and beach-face evolution on a prototype coarse sandy barrier, Coastal Engineering, doi:10.1016/j.coastaleng.2015.11.005 (https://doi.org/10.1016/j.coastaleng.2015.11.005).
  • Pieterse, A., J.A. Puleo and T.E. McKenna. 2015. Near-bed shear stress, turbulence production and dissipation in a shallow and narrow tidal channel, Earth Surface Processes and Landforms, 40(15), 2059-2070, doi: 10.1002/esp.3782 (http://onlinelibrary.wiley.com/doi/10.1002/esp.3782/epdf).
  • Brinkemper, J.A. T. Lanckriet, F. Grasso, J.A. Puleo and B.G. Ruessink. 2015. Observations of turbulence within the surf and swash zone of a field-scale sandy laboratory beach, Coastal Engineering, doi:10.1016/j.coastaleng.2015.07.006 (https://doi.org/10.1016/j.coastaleng.2015.07.006).
  • Puleo, J.A., T. Lanckriet, D. Conley and D. Foster. 2015. Sediment transport partitioning in the swash zone of a large-scale laboratory beach, Coastal Engineering, doi:10.1016/j.coastaleng.2015.11.001 (https://doi.org/10.1016/j.coastaleng.2015.11.001).
  • Lanckriet, T. and J.A. Puleo. 2015. A semianalytical model for sheet flow layer thickness with application to the swash zone, Journal of Geophysical Research, 120 (2), 1333-1352 (http://onlinelibrary.wiley.com/doi/10.1002/2014JC010378/epdf).
  • Puleo, J.A. A. Pieterse and T.E. McKenna. 2015. Quantifying tidal mud flat elevations from fixed-platform long-wave infrared imagery, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8 (3), 199-1207 (http://ieeexplore.ieee.org/document/7008498/?reload=true).
  • Inch, K., G. Masselink, J.A. Puleo, P. Russell and D. Conley. 2015. Vertical structure of near-bed cross-shore flow velocities in the swash zone of a dissipative beach, Continental Shelf Research, dx.doi.org/10.1016/j.csr.2015.04.006 (https://doi.org/10.1016/j.csr.2015.04.006).
  • Keshtpoor, M., J.A. Puleo, F. Shi and G. Ma. 2015. 3D numerical simulation of turbulence and sediment transport within a tidal inlet, Coastal Engineering, 96, 13-26 (https://doi.org/10.1016/j.coastaleng.2014.10.009).

2014

  • Keshtpoor, M., J.A. Puleo and F. Shi. 2014. Downdrift beach erosion adjacent to Indian River Inlet, Delaware, USA. Shore & Beach, 82(1), 31-41 (Best student paper award at ASBPA conference).
  • Keshtpoor, M., J.A. Puleo, F. Shi and N. DiCosmo. 2014. Numerical simulation of nearshore hydrodynamics and sediment transport downdrift of a tidal inlet, Journal of Waterway, Port, Coastal and Ocean Engineering, 10.1061/(ASCE)WW.1943-5460.0000273, 04014035 (https://ascelibrary.org/doi/abs/10.1061/%28ASCE%29WW.1943-5460.0000273).
  • Puleo, J.A., T. Lanckriet and C. Blenkinsopp. 2014. Bed level fluctuations in the inner surf and swash zone of a dissipative beach, Marine Geology, 349, 99-112 (https://doi.org/10.1016/j.margeo.2014.01.006).
  • Puleo, J.A., C. Blenkinsopp, D. Conley, G. Masselink, I.L. Turner, P. Russell, D. Buscombe, D. Howe, T. Lanckriet, R. McCall and T. Poate. 2014.  Comprehensive field study of swash-zone processes, Part 1: Experimental design with examples of hydrodynamic and sediment transport measurements, Journal of Waterway, Port, Coastal and Ocean Engineering, 10.1061/(ASCE)WW.1943-5460.0000210, INVITED, (https://ascelibrary.org/doi/full/10.1061/%28ASCE%29WW.1943-5460.0000210).
  • Lanckriet, T., J.A. Puleo, G. Masselink, I.L. Turner, D. Conley, C. Blenkinsopp and P. Russell. 2014. Comprehensive field study of swash-zone processes, Part 2: Sheet flow sediment concentrations during quasi-steady backwash, Journal of Waterway, Port, Coastal and Ocean Engineering, 10.1061/(ASCE)WW.1943-5460.0000209, INVITED, (https://ascelibrary.org/doi/abs/10.1061/%28ASCE%29WW.1943-5460.0000209).

2013

  • Turner, I.L., G.C. Rau, M.S. Andersen, M.J. Austin, J.A. Puleo and G. Masselink. 2013. Coastal sand barrier hydrology – observations from the BARDEX II prototype-scale laboratory experiment, Journal of Coastal Research, SI65, 1886-1891 (http://www.jcronline.org/doi/abs/10.2112/SI65-319.1?code=cerf-site).
  • Lanckriet, T. and J.A. Puleo. 2013. Near-bed turbulence dissipation measurements in the inner surf and swash zone, Journal of Geophysical Research, 118 (12), 6634-6647 (http://onlinelibrary.wiley.com/doi/10.1002/2013JC009251/epdf).
  • Roberts, T.M., P. Wang and J.A. Puleo. 2013. Storm-driven cyclic beach morphodynamics of a mixed sand and gravel beach along the mid-Atlantic coast USA, Marine Geology, 346, 403-421, (https://doi.org/10.1016/j.margeo.2013.08.001).
  • Lanckriet, T. J.A. Puleo, and N. Waite. 2013. A conductivity concentration profiler for sheet flow sediment transport, IEEE Journal of Oceanic Engineering, 38, 55-70, (http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=6363485).
  • Keshtpoor, M. J.A. Puleo, J. Gebert and N.G. Plant. 2013. Beach response to a sand bypassing system, Coastal Engineering, 73, 28-42, (https://doi.org/10.1016/j.coastaleng.2012.09.006).
  • Torres-Freyermuth, A., J. A. Puleo and D. Pokrajac. 2013. Modeling swash-zone hydrodynamics and shear stresses on planar slopes using Reynolds-Averaged Navier–Stokes equations, Journal of Geophysical Research, 118, doi:10.1002/jgrc.20074, (http://onlinelibrary.wiley.com/doi/10.1002/jgrc.20074/epdf).

2012

2011

2010

2009

2008

  • Pietro, L., M.A. O’Neal and J.A. Puleo, 2008. Developing terrestrial-LIDAR-based digital elevation models to assess beach nourishment performance at Rehoboth Beach, DE, USA, Journal of Coastal Research, 24, 1555-1564, (http://www.jcronline.org/doi/abs/10.2112/07-0904.1 ).
  • Puleo, J.A., L. He, N. Pearre, L. Schmied, M. O’Neal, L. Pietro and M. Fowler, 2008. A single-user sub-aerial beach profiler, Journal of Coastal Research, 24, 1080-1086, (http://www.jcronline.org/doi/abs/10.2112/06-0665.1).

2007

2006

2005

2004

2003

2002

2001

2000

Google Scholar

2022

  • Choi, Y.-K., Shi, F., Malej, M. Smith, J. M., Kirby, J. T., Grilli, S. T., 2022, Block-structured, equal workload, multigrid nesting interface for Boussinesq wave model FUNWAVE-TVD, Geoscientific Model Development,  DOI:10.5194/egusphere-2022-35
  • Deb, M., Abdolali, Kirby, J. T., Shi, F., and Guiteras, S., 2022. Hydrodynamic modeling of a complex salt marsh system: Importance of channel shoreline and bathymetric resoluton, Coastal Engineering, Volume 173, April 2022, 104094, DOI:10.1016/j.coastaleng.2022.104094
  • Zhu, J., Shi, F., Cai, F., Wang, Q., Qi, H., Zhan, C., Liu, J., Liu, G., Lei, G., 2022. Influences of beach berm height on beach response to storms: a numerical study, Applied Ocean Research, Volume 121, April 2022, 103090, DOI:10.1016/j.apor.2022.103090
  • Simpson, A. J., Shi, F., Jurisa, J. T., Honegger, D., Hsu, T.-J., Haller, M.C., 2022. Observations and modeling of a buoyant plume exiting into a tidal cross-flow and exhibiting along-front instabilities, Journal of Geophysical Research – Ocean, DOI:10.1029/2021JC017799
  • Luo, Y., Zhang, C., Liu, J., Xing, H., Zhou, F., Wang, D., Long, X., Wang, S., Wang, W., Shi, F., 2022. Identifying ship-wakes in a shallow estuary using machine learning, Ocean Engineering, 246, 110456. DOI:10.1016/j.oceaneng.2021.110456
  • Kirby, J. T., Grilli, S., T., Horrillo, J., Liu, P., L.-F., Nicolsky,D., Abadie, S., Ataie-Ashtiani, B., Castro, M., J., Clous, L., Escalante, C., Fine, I., Gonz ́alez-Vida, J. M., Løvholt, F., Lynett, P., Ma, G., Mac ́ıas, J., Ortega, S., Shi, F., Yavari-Ramshe, S., Zhang, C., 2022, Validation and inter-comparison of models for landslide tsunami generation, Ocean Modelling, Vol.170, 101943. DOI:10.1016/j.ocemod.2021.101943

2021

  • Deb, M., Abdolali, A., Kirby, J. T., Shi, F., Guiteras, S., McDowell, C., 2021 Sensitivity of tidal hydrodynamics to varying bathymetric configurations in a multi-inlet rapidly eroding salt marsh system: A numerical study, Earth Surface Processes and Landforms, DOI:10.1002/esp.5308
  • Salatin, R., Chen, Q., Bak, A. S., Shi, F., and Brandt, S. R., 2021, Effects of Wave Coherence on Longshore Variability of Nearshore Wave Processes, Journal of Geophysical Research – Ocean, DOI:1029/2021JC017641
  • Malej, M., Shi, F., Smith, J. M., Cuomo, G., and Tozer, N., 2021, Boussinesq-type modeling of low-frequency wave motions at Marina di Carrara, Journal of Waterway, Port, Coastal and Ocean Engineering, 147(6): 05021015, DOI:10.1061/(ASCE)WW.1943-5460.0000676
  • Zhang, C, Kirby, J. T., Shi, F., Ma, G., and Grilli, S., 2021, A two-layer non-hydrostatic landslide model for tsunami generation on irregular bathymetry. Part 2. Numerical discretization and model validation., Ocean Modelling, DOI:10.1016/j.ocemod.2021.101769
  • Ye, Z., Shi, F., Zhao X., Hu, Z., and Malej, M., 2021, A data-driven approach to modeling subgrid-scale shallow marshhydrodynamics, Coastal Engineering, DOI:10.1016/j.coastaleng.2021.103856
  • Yuan, Y., Li, H., Wei, Y., Shi, F., Wang, Z., Hou, J., Wang, P., and Xu, Z., 2021, Probabilistic Tsunami Hazard Assessment (PTHA) for southeast coast of Mainland China and Taiwan Island, Journal of Geophysical Research, Solid Earth, DOI:10.1029/2020JB020344.
  • Wang, G., Liang, Q., and Shi, F., Zheng J., 2021, Analytical and numerical investigation of trapped ocean waves along a submerged ridge, Journal of Fluid Mechanics, DOI:10.1017/jfm.2020.1039.
  • Zhang, C, Kirby, J. T., Shi, F., Ma, G., and Grilli, S., 2021, “A two-layer non-hydrostatic landslide model for tsunami generation on irregular bathymetry. Part 1. Theoretical basis.”, Ocean Modelling, DOI:10.1016/j.ocemod.2020.101749.

2020

  • Forlini, C., Qayyum, R., Malej, M., Lam, M.-A. Shi, F. Angelini, C. Sheremet, 2020. A., On the Problem of Modeling the Boat Wake Climate; the Florida Intracoastal Waterway, Journal of Geophysical Research – Oceans, DOI: 10.1029/2020JC016676.
  • Tehranirad, B., Kirby, J. T., and Shi, F., 2020, A model for tsunami-induced morphology adjustment, Pure and Applied Geophysics, DOI: 10.1007/s00024-020-02614-w.
  • Grilli, A., Westcott, G., Grilli, S., Spaulding, M., Shi, F., and Kirby, J.T.,2020, Assessing coastal risk from extreme storms with a phase resolving wave model: Case Study of Narragansett, RI, USA, Coastal Engineering, DOI: 10.1016/j.coastaleng.2020.103735.
  • Puleo, J. A., Cristaudo, D., Torres-Freyermuth, A., Masselink, G., and Shi, F., 2020, The role of alongshore flows on inner surf and swash zone hydrodynamics on a dissipative beach, Continental Shelf Research, DOI: 10.1016/j.csr.2020.104134.
  • Yuan, Y., Shi, F., Kirby, J. T., and Yu, F., 2020, “Multiple-GPU acceleration of the Boussinesq-type wave model FUNWAVE-TVD”, Journal of Advances in Modeling Earth Systems, doi: 10.1029/2019MS001957
  • Bao, J., Cai, F., Shi, F., Zheng, Y., Lu, H., Wu, C., 2020 “Morphodynamic response of sand waves in the Taiwan Shoal to a passing tropical storm”, Marine Geology, doi: 10.1016/j.margeo.2020.106196
  • Chen, Y., Shi, F., Kirby, J. T., and Liang, B., 2020, “A computationally efficient subgrid model for coupledsurface and groundwater flows”, Coastal Engineering, 157, 103665, DOI: 10.1016/j.coastaleng.2020.103665.
  • Liu, W., Ning, Y., Shi, F., and Sun Z., 2020 “A 2DH fully dispersive Boussinesq-type model based on a finite-volume and finite-difference TVD-type scheme”, Ocean Modelling, 47, DOI: 10.1016/j.ocemod.2019.101559.
  • Li, L., Shi, F., Ma, G., and Qui, Q., 2019, “Tsunamigenic potential of Baiyun submarine landslide in the South China Sea”, Journal of Geophysical Research: Solid Earth, DOI:10.1029/2019JB018062.

2019

  • Li, L., Shi, F., Ma, G., and Qui, Q., 2019, “Tsunamigenic potential of Baiyun submarine landslide in the South China Sea”, Journal of Geophysical Research: Solid Earth, DOI:10.1029/2019JB018062.
  • Zhu, J., Cai, F., Shi, F., Qi, H., Lei, G., Liu, J., Cao, H., and Zheng, J., 2019, “Beach response to layout of drainage pipe outlet during beach nourishment”, Estuarine, Coastal and Shelf Science, DOI: 10.1016/j.ecss.2019.106354.
  • Shi, J., Shi, F., Kirby, J. T., Zheng, J., Zhang, C., and Malej, M., 2019, “Interplay between grid resolution and pressure decimation in non-hydrostatic modeling of internal waves”, Ocean Engineering, DOI:10.1016/j.oceaneng.2019.06.014.
  • Ding, Y. and Shi, F., 2019, “An analytical solution for nearshore circulation driven by focused/defocused waves”, China Ocean Engineering, in press
  • Choi Y.-K., Seo S.-N., Choi J.-Y., Shi F., Park K.-S., 2019, “Wave prediction in a port using a fully nonlinear Boussinesq wave model”, Acta Oceanol. Sin., 38 (7), 1-12. DOI:10.1007/s13131-019-1456-2.

2018

  • Choi, Y.-K., Shi, F., Malej, M., and Smith, J. M., 2018, “Performance of various shock-capturing-type reconstruction schemes in the Boussinesq wave model, FUNWAVE-TVD”, Ocean Modelling, 131, 86-100. DOI:10.1016/j.ocemod.2018.09.004.
  • Wu, G., Shi, F., Kirby, J. T., Shi, J., and Liang, B., 2018, “Modeling wave effects on storm surge and coastal inundation”, Coastal Engineering, DOI:10.1016/j.coastaleng.2018.08.011.
  • Lu, Y., Shi, F., Kobayashi, N., Malej, M., Zhu, T., and Feng, W., 2018, “Numerical investigation of excessive surge induced by wave overtopping in an inlet-bay system”, Coastal Engineering,DOI:10.1016/j.coastaleng.2018.08.009.
  • Schambach, L., Grilli, S. T., Kirby, J. T., and Shi, F., 2018, “Landslide tsunami hazard along the upper US East Coast: effects of slide rheology, bottom friction and frequency dispersion”, Pure and Applied Geophysics,doi:10.1007/s00024-018-1978-7
  • Wargula, A., Raubenheimer, B., Elgar, S., Chen, J.-L., Shi, F., and Traykovski, P., 2018, “Flow asymmetry owing to inertia and waves on an unstratified, shallow ebb shoal”, Journal of Geophysical Research: Oceans, DOI:10.1029/2017JC013625
  • Orzech, M.D., Shi, F., Bateman, S., Veeramony, J., Calantoni, J., and Kirby, T.J., 2018, “A coupled system for investigating the physics of wave-ice interactions”, Journal of Atmospheric and Oceanic Technology, doi:10.1175/JTECH-D-17-0189.1.
  • Shi, F., Malej, M., Smith, J. M., and Kirby, J. T., 2018, “Breaking of ship bores in a Boussinesq-type ship-wake model”, Coastal Engineering, doi:10.1016/j.coastaleng.2017.11.002.

2017

  • Kukulka, T.,Jenkins, R. L., Kirby, J. T., Shi, F. and Scarborough, R. W., 2017, “Surface wave dynamics in Delaware Bay and its adjacent coastal shelf”, Journal of Geophysical Research: Oceans, doi:10.1002/2017JC013370
  • Lynett P., et al., 2017, “Inter-Model Analysis of Tsunami-Induced Coastal Currents”, Ocean Modelling, doi:10.1016/j.ocemod.2017.04.003
  • Chakrabarti, A., Brandt, S. R., Chen, Q., and Shi, F., 2017, “Boussinesq modeling of wave induced hydrodynamics in coastal wetlands during Hurricane Isaac”, Journal of Geophysical Research: Oceans, DOI: 10.1002/2016JC012093
  • Zhou, Z., Yu, X., Hsu, T.-J., Shi, F., Geyer, W. R. and Kirby, J. T., 2017, “Large eddy simulation of idealized river plumes at high Reynolds number”, Journal of Geophysical Research: Oceans , DOI: 10.1002/2016JC012334
  • Wu, G., Li, H., Liang, B., Shi, F.,Kirby, J. T., and Mieras, R., 2017, “Subgrid Modeling of Salt Marsh Hydrodynamics with Effects of Vegetation and Vegetation Zonation”, Earth Surface Processes and Landforms, DOI:10.1002/esp.4121
  • Shi, F., Chickadel, C., Hsu, T.-J., Kirby, J. T., Farquharson, G. and Ma, G., 2017, “Frontal features of the Columbia River mouth seen from a high-resolution non-hydrostatic model”, Estuarines and Coasts, 40, 296-309, DOI 10.1007/s12237-016-0132-y
  • Grilli, S. T., Shelby, M., Kimmoun, O., Dupont, G., Nicolsky, D., Ma, G., Kirby, J. T. and Shi, F., 2017, “Modeling coastal tsunami hazard from submarine mass failures: effect of slide rheology, experimental validation, and case studies off the US East Coast”, Natural Hazards, doi:10.1007/s11069-016-2692-3

2016

  • Kirby, J. T., Shi, F., Nicolsky, D. and Misra, S., 2016, “The 27 April 1975 Kitimat, British Columbia submarine landslide tsunami: A comparison of modeling approaches”, Landslides, 13, 1421-1434, doi:10.1007/s10346-016-0682-x.
  • Schnyder, J. S. D., Eberli, G. P., Kirby, J. T., Shi, F., Tehranirad, B., Mulder, T., Ducassou, E., H ebbeln, D. and Wintersteller, P., 2016, “Tsunamis caused by submarine slope failures along western Gr eat Bahama Bank”, Scientific Reports (Nature) , 6, 35925, doi:10.1038/srep35925.
  • Derakhti, M., Kirby, J. T., Shi, F. and Ma, G., 2016, “NHWAVE: Consistent boundary conditions and turbulence modeling”, Ocean Modelling, 106, 121-130, doi: 10.1016/j.ocemod.2016.09.002.
  • Derakhti, M., Kirby, J. T., Shi, F. and Ma, G., 2016, “Wave breaking in the surf zone and deep water in a non-hydrostatic RANS model, Part 1: Organized wave motions”, Ocean Modeling, 107, 125-138, doi: 10.1016/j.ocemod.2016.09.001.
  • Derakhti, M., Kirby, J. T., Shi, F. and Ma, G., 2016, “Wave breaking in the surf zone and deep water in a non-hydrostatic RANS model, Part 2: Turbulence and mean circulation”, Ocean Modeling, doi: 10.1016/j.ocemod.2016.09.011.
  • Ma, G., Farahani, A. A., Kirby, J. T., Shi, F., 2016, Modeling wave-structure interactions by an immersed boundary method in a sigma-coordinate model, Ocean Engineering, 125, 238-247. doi:10.1016/j.oceaneng.2016.08.027.
  • Son, S. Jung, T.-H., and Shi, F., 2016, “Vertical structure of rip-currents in the nearshore Circulation”, Journal of Coastal Research , Special issue, 72, 1402-1406, doi:10.2112/SI75-281.1.
  • Orzech, M., Shi, F., Veeramony, J., Bateman, S., Calantoni, J. and Kirby, J. T., 2016, “Incorporating floating surface objects into a fully dispersive surface wave model”, Ocean Modelling, 102, 14-26, doi:10.1016/j.ocemod.2016.04.007.
  • Wu, G., Shi, F., Kirby, J. T., Mieras, R., Liang, B., Li, H. and Shi, J., 2016, “A pre-storage, subgrid model for simulating flooding and draining processes in salt marshes”, 49 Coastal Engineering, 108, 65-78, doi:10.1016/j.coastaleng.2015.11.008.

2015

  • Shi, J., Shi, F., Kirby, J. T. Gu, G. and Ma, G., 2015, “Pressure decimation and interpolation (PDI) method for a baroclinic non-hydrostatic model”, Ocean Modelling, 96, 265-279, doi:10.1016/j.ocemod.2015.09.010.
  • Ma, G., Kirby, J. T., Hsu, T.-J. and Shi, F., 2015, “A two-layer granular landslide model for tsunami wave generation: Theory and computation”, Ocean Modelling, 93. 40-55, doi:10.1016/j.ocemod.2015.07.012.
  • Tehranirad, B., Harris, J. C., Grilli, A. R., Grilli, S. T., Abadie, S., Kirby, J. T. and Shi, F., 2015, “Far-field tsunami hazard on the western European and US east coast from a large scale flank collapse of the Cumbre Vieja volcano, La Palma”, Pure and Applied Geophysics, doi:10.1007/s00024-015-1135-5.
  • Chen, J., Hsu, T., Shi, F., Raubenbeimer, B., and Elgar, S., 2015, “Hydrodynamic and sediment transport modeling of New River Inlet (NC) under the interaction of tides and waves”, J. Geophy. Res. , doi:10.1002/2014JC010425.
  • Goncharenko, Y.V., Farquharson, G., Shi, F., Raubenheimer, B., Elgar, S.,2015,”Estimation of Shallow-water Breaking Wave Height from Synthetic Aperture Radar”,Geosicence and Remote Sensing Letters, doi:10.1109/LGRS.2015.2445492.
  • Shi, F., Vittori, G. and Kirby, J. T., 2015, “Concurrent correction method for modeling morphological response to dredging an offshore sandpit”, Coastal Engineering , 97,1-10, doi:10.1016/j.coastaleng.2014.12.008.
  • Keshtpoor, M., Puleo, J. A., Shi, F. and Ma, G., 2015,”3D Numerical Simula tion of Turbulence and Sediment Transport within a Tidal Inlet”, Coastal Engineering, 96,13-26, doi:10.1016/j.coastaleng.2014.10.009.
  • Grilli, S. T., O’Reilly, C., Harris, J. C., Tajalli Bakhsh, T., Tehra nirad, B., Banihashemi, S., Kirby, J. T., Baxter, C. D. P., Eggeling, T., Ma , G. and Shi, F., 2015 “Modeling of SMF tsunami hazard along the upper U. S. East Coast: Detailed impact around Oc ean City, MD”, Nat. Hazards, doi:10.1007/s11069-014-1522-8.

2014

  • Tappin, D. R., Grilli, S. T., Harris, J. C., Geller, R. J., Masterlark, T., Kirby, J. T., Shi, F., Ma, G., Thingbaijam, K. K. S. and Mai, P. M., 2014, “Did a submarine landslide contribute to the 2011 Tohoku tsunami?”, Marine Geology, doi:10.1016/j.margeo.2014.09.043.
  • Chen, J., Shi, F., Hsu, T.-J., and Kirby, J. T., 2014,”NearCoM-TVD – a quasi-3D nearshore circulation and sediment transport model”, Coastal Engineering, 91, 200-212, doi:10.1016/j.coastaleng.2014.06.002.
  • Keshtpoor, M., Puleo, J. A., Shi, F. and DiCosmo, N., 2014, “Numerical simulation of nearshore hydrodynamics and sediment transport downdrift of a tidal inlet”, Journal of Waterway, Port, Coastal and Ocean Engineering, doi:10.1061/(ASCE)WW.1943-5460.0000273.
  • Ma, G., Shi, F., Hsiao, S.-C., and Wu Y.-T.,2014, “Non-dydrostatic modeling of wave interaction with porous structures”, Coastal Engineering, 91, 84-98, doi:10.1016/j.coastaleng.2014.05.004.
  • Hansen, J. E., Janssen, T. T., Raubenheimer, B., Shi, F., Barnard, P., and Jones, I. S., 2014, “Observations of surfzone alongshore pressure gradients onshore of an ebb-tidal delta”, Coastal Engineering, 91, pp. 251-260, doi:10.1016/j.coastaleng.2014.05.010.
  • Ma, G., Chou, Y.-J. and Shi, F., 2014, “A wave-resolving model for nearshore suspended sediment transport”, Ocean Modelling, 77, 2014, 33-49, doi:10.1016/j.ocemod.2014.03.003.
  • Keshtpoor, M., Puleo, J. A., Shi, F., 2014, “Downdrift beach erosion adjacent to the Indian River Inlet, Delaware, USA”, Shore & Beach, Vol. 82, No. 1-11.

2013

  • Ma, G., Shi, F., Liu, S. and Qi, D., 2013,”Migration of sediment deposition due to the construction of large-scale structures in Changjiang Estuary”, Applied Ocean Research, 43, 148-156, doi:10.1016/j.apor.2013.09.002.
  • Ma, G., Kirby, J. T. and Shi, F., 2013, “Numerical simulation of tsunami waves generated by deformable submarine landslides”, Ocean Modelling, 69, 146-165, doi:10.1016/j.ocemod.2013.07.001.
  • Ma, G., Kirby, J T., Su, S. F., Figlus, J. and Shi, F., 2013, “Numerical study of turbulence and wave damping induced by vegetation canopies”, Coastal Engineering, 80, 68-78, doi:10.1016/j.coastaleng.2013.05.007.
  • Shi, F., Cai, F., Kirby, J. T. and Zheng, J., 2013, “Morphological modeling of a nourished bayside beach with a low tide terrace”, Coastal Engineering, 78, 23-34, doi:10.1016/j.coastaleng.2013.03.005.
  • Sawyer, A. H., Shi, F., Kirby, J. T. and Michael, H. A., 2013, “Dynamic response of surface water-groundwater exchange to currents, tides and waves in a shallow estuary’‘, J. Geophys. Res., 118, doi:10.1002/jgrc.20154.
  • Kirby, J. T., Shi, F. Harris, J. C., and Grilli, S. T., 2013, “Dispersive tsunami waves in the ocean: Model equations and sensitivity to dispersion and Coriolis effects”, Ocean Modeling , 62, 39-55, doi:10.1016/j.ocemod.2012.11.009.

2012

  • Grilli, S. T., Harris, J. C., Tajalibakhsh, T., Masterlark, T. L., Kyriakopoulus, C., Kirby, J. T. and Shi, F., 2012, “Numerical simulation of the 2011 Tohoku tsunami based on a new transient FEM co-seismic source”, Pure and Applied Geophysics, doi:10.1007/s00024-012-0528-y.
  • Shi, F., Kirby, J. T., Harris, J. C., Geiman, J. D. and Grilli, S. T., 2012, “A high-order adaptive time-stepping TVD solver for Boussinesq modeling of breaking waves and coastal inundation”, Ocean Modelling, 43-44, 36-51, doi:10.1016/j.ocemod.2011.12.004.
  • Ma, G., Shi, F. and Kirby, J. T., 2012, “Shock-capturing non-hydrostatic model for fully dispersive surface wave processes”, Ocean Modelling, 43-44, 22-35, doi:10.1016/j.ocemod.2011.12.002.

2011

  • Shi., F., Hanes, D. M., Kirby, J. T., and Erikson, L., Barnard, P., and Eshleman, J., 2011, Pressure gradient-driven nearshore circulation on a beach influenced by an adjacent large inlet , J. Geophys. Res., doi:10.1029/2010JC006788.
  • Ma, G., Shi, F., and Kirby, J. T., 2011, A polydisperse two-fluid model for surfzone bubble simulation, J. Geophys. Res. , doi:10.1029/2010JC006667.
  • Ma, G., Shi, F., Qi, D., and Liu, S., 2011, Hydrodynamic modeling of Changjiang Estuary: model skill assessment and large-scale structure impacts, Applied Ocean Research , 33, 69-78, doi:10.1016/j.apor.2010.10.004.

2010

  • Shi, F., Kirby, J. T., and Ma, G., 2010, Modeling quisecent phase transport of air bubbles induced by breaking waves, Ocean Modelling , 35, 105-117, doi:10.1016/j.ocemod.2010.07.002.
  • Grilli,S.T., Dubosq, S., Pophet,N. Perignon, Y. Kirby, J. T., and Shi, F., 2010, Numerical simulation of co-seismic tsunami impact on the North shore of Puerto Rico and far-field impact on the US east coast: a first-order hazard analysis, Natural Hazards and Earth System Sciences, 10, 2109-2125, doi:10.5194/nhess-10-2109-2010.
  • Qi, H., Cai, F., Lei, G., Cao, H., and Shi, F., 2010, The response of three main beach types to tropical storms in South China, Marine Geology, 275, 244 – 254, doi:10.1016/j.margeo.2010.06.005.
  • Zhang, W., Shi, F., Hong, H., Shang, S. and Kirby, J. T., 2010, Tide-surge interaction intensified by the Taiwan Strait, J. Geophys. Res., 115, C06012,doi:10.1029/2009JC005762.

2009

  • Waythomas C.F., Watts P., Shi F., and Kirby J. T., 2009, Pacific basin tsunami hazards associated with mass flows in the Aleutian Arc of Alaska, Quaternary Science Review, 28, 11-12, 1006 – 1019, doi:10.1016/j.quascirev.2009.02.019.

2008

  • Smith K. A., North E. W., Shi F. Chen S-N, Sanford L., Hood R. R., Koch E. W. and Newell R. I. E., 2008, Modeling the effects of oyster reefs and breakwaters on seagrass beds, Estuaries and Caosts, 32 (4), 748-757, www.jstor.org/stable/40663579.
  • Shi, F. and Kirby, J. T., 2008, Discussion of ‘Wave setup and setdown generated by obliquely incident waves’ by T.-W. Hsu et al, Coastal Engrng, 53, 865-877, 2006’, Coastal Engrng., 55, 1247-1249, doi:10.1016/j.coastaleng.2008.08.001.

2007

  • Shi, F., Kirby, J. T., Hanes, D., 2007, An efficient mode-splitting method for a curvilinear nearshore circulation model, Coastal Engineering, , 54, 811-824, doi:10.1016/j.coastaleng.2007.05.009.
  • Chen S-N, Sanford, L. P., Koch, E. W., Shi, F., North, E. W., 2007, A nearshore model to investigate the effects of seagrass bed geometry on wave attenuation and suspended sediment transport, Estuaries and Coasts, Vol. 30, No.2, 296-310, www.jstor.org/stable/4494087.
  • Grilli, S. T., Ioualalen, M., Asavanant, J., Shi, F., Kirby, J. T., Watts, P., 2007, Source constraints and model simulation of the December 26, 2004, Indian Ocean Tsunami, Journal of Waterway, Port, Coastal and Ocean Engineering, Special Issue on Tsunami Engineering, Vol. 133, No.6, 414-428, doi:10.1061/(ASCE)0733-950X(2007)133:6(414).

2005

  • Shi, F. and Kirby, J. T.,2005, Curvilinear parabolic approximation for surface wave transformation with wave-current interaction, Journal of Computational Physics , 204, 562-586, doi:10.1016/j.jcp.2004.10.022.

2004

  • Zheng, Q, Yuan, Y., Shen, S.S., Huang, N. E., Klemas, V., Yan, X., Shi, F., Zhang, X., Zhao, Z., Li, X., and Clemente-Colon, P., 2004, Evidence of upstream solitons and downstream wavetrain in a near resonant air flow over an island topography , International Journal of Remote Sensing , 25 (21), 4433- 4440,doi:10.1080/01431160310001609716.
  • Kong, Y., Shi, F., and Ding P., 2004, A statistical model for predicting storm-induced sediment deposition in North-Channel at Yangtze River Mouth, Journal of ECNU (Nature Science, in Chinese), 2004 (1), 25-34.

2003

  • Chen, Q., Kirby, J. T., Dalrymple, R. A., Shi, F. and Thornton, E. B., 2003, Boussinesq modeling of longshore currents, J. Geophys. Res., Vol. 108, No. C11, 3362, doi:10.1029/2002JC001308.
  • Shi,F.,Svendsen,I.A., Kirby, J.T., and Smith, J. M., 2003, A curvilinear version of a Quasi-3D nearshore circulation model, Coastal Engineering, 49 (1-2), 99-124, doi:10.1016/S0378-3839(03)00049-8.
  • Shi, F., Kirby, J. T., Dalrymple, R. A., and Chen Q., 2003, Wave simulations in Ponce De Leon Inlet using Boussinesq model, Journal of Waterway, Port, Coastal and Ocean Engineering, 129(3), 124-135, doi:10.1061/(ASCE)0733-950X(2003)129:3(124).

2001

  • Shi, F., Dalrymple R. A., Kirby, J. T., Chen, Q. and Kennedy, A., 2001, A fully nonlinear Boussinesq Model in generalized curvilinear coordinates, Coastal Engineering , 42(4), 237-258, doi:10.1016/S0378-3839(00)00067-3.

2000

  • Shi, F., Zhu, S., Zhu, J. and Ding, P., 2000, Numerical study on residual current and its effect on mass transport in the Hangzhou Bay and the Yangtze Estuary, I. A 3-D joint model of the Hangzhou Bay and the Yangtze Estuary, ACTA Oceanologica Sinica, 22(5): 1-12.
  • Zhu S., Ding, P., Shi, F. and Zhu, J., 2000, Numerical study on residual current and its effect on mass transport in the Hangzhou Bay and the Yangtze Estuary, II. Residual current and mass transport in winter, ACTA Oceanologica Sinica, 22(6): 1-11.

1999

  • Shi, F., Ding, P. and Kong, Y., 1999, A numerical fluid dynamic model using fine boundary-fitted grids in estuarine and tidal flats, China Ocean Engineering 13(2), 115-124, https://link.springer.com/journal/13344.
  • Bao X., Sun, W. and Shi, F., 1999, A three-dimensional coastal barotropic model in generalized curvilinear grid, Chinese Journal of Oceanology and Limnology 17, 289-299, https://link.springer.com/article/10.1007%2FBF02842822.
  • Ding, P., Shi, F. and Kong, Y., 1999, A three-dimensional diffusion equation of suspended sediment with waves and currents, Chinese Science Bulletin, 44(19), 1814-1817, https://link.springer.com/article/10.1007/BF02886167.
  • Yu, Z., Zhang, J., Shi, F., and Wu, C., 1999, New method for evaluating toxicity of heavy metals on marine macroalgae, Oceanologia et Limnologia Sinica , 30 (2), 199-205.

1998

  • Shi, F., Sun, W. and Wei, G., 1998, A WDM method on generalized curvilinear grid for calculation of storm surge flooding, Applied Ocean Research, 19(4), 275-282, doi:10.1016/S0141-1187(97)00030-8.
  • Shi, F., Ding, P. and Kong, Y., 1998, An implicit numerical model using contravariant velocity components and calculations in a harbour-channel area, ACTA Oceanologica Sinica, 17(4), 423-432.
  • Ding, P., Kong, Y. and Shi, F., 1998, Radiation stress of water waves and its calculation, Journal of ECNU (Natural Science), 1998(1), 82-87.
  • Ding, P., Shi, F. and Kong, Y., 1998, Numerical calculation of Combined refraction-diffraction of random waves in non-uniform currents,Journal of ECNU (Natural Science), 1998(2), 69-76。

1997

  • Shi, F., Sun, W. and Wei, G., 1997, A self-adaptive grid model for the simulation of moving lateral boundaries in problems involving the shallow water equations, ACTA Oceanologica Sinica, 19 (2), 1-9.
  • Shi, F. and Sun, W., 1997, Hopscotch method in the numerical forecasting of storm surges, Journal of Ocean University of Qingdao, 27(3), 271-276.
  • Xu, Z., Shi, F., Lou, S. and Shen, S.S., 1997, Velocities of precursor soliton generation of single-layer flow, Chin. J. Oceanol. Linmol, 15(2), 129-136, https://link.springer.com/article/10.1007/BF02850682.
  • Xu, Z., Shi, F. and Shen, S.S., 1997, On period and amplitude of the locally forced soliton generation of single-layer flow, Progress in Nature Science, 7 (5), 574-582, https://www.tandfonline.com/loi/tpns20

1996

  • Shi, F. and Zheng, L., 1996, A BFG model for calculation of tidal current and diffusion of pollutants in nearshore areas, ACTA Oceanologica Sinica, 15 (2), 283-296, http://www.hyxb.org.cn/aosen/ch/reader/19960301.
  • Xu, Z., Shi, F., Lou S. and Shen S.S., 1996, Theoretical mean wave resistance of precursor soliton generation of single-layer flow, Chin. J. Oceanol. Linmol, 14(4), 330-336, https://link.springer.com/article/10.1007/BF02850553.
  • Xu, Z., Xu Y. and Tian J., Shi, F., 1996, On the theoretical mean wave resistance of precursor soliton generation II. Numerical calculation,Journal of Ocean University of Qingdao, 26 (2), 139-146.

1995

  • Shi, F. and Sun, W., 1995, Development and application of a moving boundary model in a polar coordinate transformation, Oceanol. Limnol. Sinica, 26 (4), 369-376.
  • Shi, F. and Sun, W., 1995, A variable boundary model of storm surge flooding in generalized curvilinear grids, International Journal for Numerical Methods in Fluids, 21 (8), 642-651, doi:10.1002/fld.1650210803.

1994

  • Sun, W., Yang, Z. and Shi, F., 1994, On the numerical prediction models of storm surge inundation, Journal of Ocean University of Qingdao, 24 (3), 293-300.
  • Xu, Z., Shi, F. and Shen, S.S., 1994, A numerical calculation of forced supercritical soliton in a single-layer flow, Journal of Ocean University of Qingdao, 24 (3), 309-319.

1993

  • Shi, F. and Sun, W., 1993, Numerical simulations of storm surge inundations in partial areas of the Bohai Sea, Oceanol. Limnol. Sinica, 24 (1), 16-23.

2023

  • Oswald, C.J.*, C. Kelleher, S.H. Ledford, K.G. Hopkins, A. Sytsma, D. Tetzlaff, L. Toran, C.B. Voter. 2023. Moving beyond impervious surface cover: the need for integrated process understanding of water flow in cities. Journal of Hydrology, 618 (129188). https://doi.org/10.1016/j.jhydrol.2023.129188

2021

  • Voter, C.B., F.J. Guerrero-Bolano, A.W. Latzka, B.M. Maitland, and J. Hauxwell. 2021. Adaptable University-Agency Early-Career Fellowship Program Creates a Win-Win-Win for Wisconsin’s Waters. Journal of Contemporary Water Research & Education, 174:139-154. https://doi-org.udel.idm.oclc.org/10.1111/j.1936-704X.2021.3365.x
  • Voter, C.B. and S.P. Loheide II. 2021. Climatic controls on the hydrologic effects of urban low impact development practices. Environmental Research Letters, 16(6): 064021. https://iopscience.iop.org/article/10.1088/1748-9326/abfc06
  • Voter, C.B, C. Hein, J. Chenevert, I. Anderson, R. Smail, M. Gibson, K. Doyle, S. Bunde. 2021. Appendix B: Central Sands Lakes Study Technical Report: Lake Ecosystem Characterization and Response. Wisconsin Department of Natural Resources. https://doi.org/10.5281/zenodo.5708751

2020

  • Voter, C.B. and S.P. Loheide II. 2020. Where and When Soil Amendment is Most Effective as a Low Impact Development Practice in Residential Areas. Journal of the American Water Resources Association, 56(5):776-789. https://doi.org/10.1111/1752-1688.12870

2019

  • Mayo, L. and C.B. Voter. 2019. Introducing Students to Engineering by Helping Them RePicture Their World. ASEE Annual Conference & Exposition, Tampa, FL. https://peer.asee.org/32265. (17p.)

2018

  • Voter, C.B. and S.P. Loheide II. 2018. Urban Residential Surface and Subsurface Hydrology: Synergistic Effects of Low-Impact Features at the Parcel-Scale. Water Resources Research, 54. https://doi.org/10.1029/2018WR022534

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2022

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2021

  • Y. Hu, L. Fitzpatrick, L. M. Fry, L. Mason, L. K. Read and D. Goering (2021). Edge-of-field Runoff Prediction by a Hybrid Modeling Approach Using Causal Inference. Environmental Research Communications, 3, 075003. DOI 10.1088/2515-7620/ac0d0a

2019

  • Y. Hu, C.M. Long, Y.C. Wang, B. Kerkez and D. Scavia (2019). Urban Total Phosphorus Loads to the St. Clair-Detroit River System. Journal of Great Lakes Research, 45(6), 1142-1149.
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2018

  • Y. Hu, D. Scavia and B. Kerkez (2018). Are all data useful? Inferring causality to predict flows across sewer and drainage systems using Directed Information and Boosted Regression Trees. Water Research, 145, 697-706.
  • Y. Hu and S. Beattie (2018). The Role of Heterogeneous Behavioral Factors in an Agent-based Model of Crop Choice and Groundwater Irrigation. Journal of Water Resources Planning and Management, 145(2), 04018100.

2017

  • Y. Hu, C. J. Quinn, X. M. Cai and N. W. Garfinkle (2017). Combining human and machine intelligence to derive agents’ behavioral rules for groundwater irrigation. Advances in Water Resources, 109, 29-40.

2015

  • Y. Hu, X. M. Cai and B. DuPont (2015). Design of a web-based application of the coupled multi-agent system model and environmental model for watershed management analysis using Hadoop, Environmental Modelling & Software, doi:10.1016/j.envsoft.2015.04.011
  • Y. Hu, O. Garcia-Cabrejo, X.M. Cai, A. J. Valocchi and B. Dupont (2015). Global sensitivity analysis for largescale socio-hydrological models using Hadoop, Environmental Modelling and Software, doi:10.1016/j.envsoft.2015.08.015
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