Publications

Peer-Reviewed Journal Publications (Google Scholar)

1. Xue P., Wagh A., Ma G., Wang Y., Yang Y. and Huang C., 2022, Integrating deep learning and hydrodynamic modeling for improved prediction of the Great Lakes, Remote Sensing, 14, 2640

2. Lou S., Chen M., Ma G., Liu S. and Wang H., 2022, Sediment suspension affected by submerged rigid vegetation under waves, currents and combined wave-current flows, Coastal Engineering, 104082

3. Kirby J.T., Grilli S.T., Horrillo J., Liu P. L.-F., Abadie S., Ataie-Ashtiani B., Castro M.J., Escalante C., Fine I., Jos´e Manuel Gonzalez-Vida, Lynett P., Ma G., Ortega S., Fengyan Shi, Saeedeh Yavari-Ramshe, Cheng Zhang, Nicolsky D., Clous L., Lovholt F., Macias J., 2022, Validation and intercomparison of models for landslide tsunami generation, Ocean Modeling, 170, 101943

4. Huang C., Xue P., Zhu L., Ma G. and Meadows G.A., 2021, Wave climate associated with changing water level and ice cover in Lake Michigan, Frontiers in Marine Science, 746916

5. Huang C., Anderson E., Liu Y., Ma G., Mann G. and Xue P., 2021, Evaluating essential processes and forecast requirements for meteotsunami-induced coastal flooding, Natural Hazards, https://doi.org/10.1007/s11069-021-05007-x

6. Su S.-F., Ma G., Hsu T.-W., 2021, Numerical modeling of low-frequency waves on a reef island in the South China Sea during typhoon events, Coastal Engineering, 169, 103979

7. 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. 1. Theoretical basis, Ocean Modelling, 159, 101749

8. 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. 2. Numerical discretization and model validation, Ocean Modelling, 160, 101769

9. Lou S., Chen M., Ma G., Liu S. and Zhong G., 2021, Modelling of stem-scale turbulence and sediment suspension in vegetated flow, Journal of Hydraulic Research, 59(3), 355-377

10. Chen M., Lou S., Liu S., Ma G., Liu H., Zhong G. and Zhang H., 2020, Velocity and turbulence affected by submerged rigid vegetation under waves, currents and combined wave-current flows, Coastal Engineering, 159, 103727

11. Feng X., Dong B., Ma G. and Feng W., 2020, Topographic and hydrodynamic influence on rip currents and alongshore currents on headland beaches in China, Journal of Coastal Research, 95, 468-473

12. Lou S., Chen M., Ma G., Liu S. and Zhong G., 2021, Modelling of stem-scale turbulence and sediment suspension in vegetated flow, Journal of Hydraulic Research, 59(3), 355-377

13. Feng X., Ma G., Su S.-F., Huang C., Boswell M. and Xue P., 2020, A multi-layer perceptron model for accelerated wave forecasting in Lake Michigan, Ocean Engineering, 211, 107526

14. Li L., Shi F., Ma G. and Qiu Q., 2019, Tsunamigenic potential of Baiyun submarine landslide in the South China Sea, Journal of Geophysical Research - Solid Earth, 124, https://doi.org/10.1029/2019JB018062

15. Lou S., Chen M., Liu S., Ma G. and Zhong G., 2018, Laboratory study of the effect of vertically-varying vegetation density on waves and currents, Applied Ocean Research, 79, 74-87

16. Niroomandi A., Ma G., Ye X., Lou S. and Xue P., 2018, Extreme value analysis of wave climate in Chesapeake Bay, Ocean Engineering, 159, 22-36

17. Su S.-F. and Ma G., 2018, Modeling two-dimensional infragravity motions on a fringing reef, Ocean Engineering, 153, 256-267

18. Niroomandi A., Ma G., Su S.-F., Gu F. and Qi D., 2018, Sediment flux and sediment-induced stratification in the Changjiang Estuary, Journal of Marine Science and Technology, 23, 349-363

19. Lou S., Liu S., Ma G., Zhong G. and Li B., 2018, Fully integrated modeling of surface water and groundwater in coastal areas, Journal of Hydrodynamics, 30, 441-452

20. Lou S., Liu S., Dai C., Ma G., Tao A., Tan B., Zhong G. and Li B., 2017, Heavy metal migration and groundwater quality assessment at a coastal area on Chongming Island, China, Polish Journal of Environmental Studies, 26,733-745

21. Shi F., Chickadel C., Hsu T.-J., Kirby J.T., Farquharson C. and Ma G., 2017, High-resolution non-hydrostatic modeling of frontal features in the mouth of the Columbia River, Estuaries and Coasts, 40, 296-309, doi:10.1007/s12237-016-0132-y

22. 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, 86, 353-391, doi:10.1007/s11069-016-2692-3

23. Derakhti M., Kirby J.T., Shi F. and Ma G., 2016, Wave breaking in the surf zone and deep water in a non-hydrostatic model, part 1: cross-shore wave transformation, Ocean modeling, 107, 125-138, doi:10.1016/j.ocemod.2016.09.001

24. Derakhti M., Kirby J.T., Shi F. and Ma G., 2016, Wave breaking in the surf zone and deep water in a non-hydrostatic model, part 2: breaking-induced velocity and turbulence, Ocean modelling, 107, 139-150, doi:10.1016/j.ocemod.2016.09.011

25. 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

26. 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 Engineering, 125, 238-247, doi:10.1016/j.oceaneng.2016.08.027

27. Wu W.-C., Ma G. and Cox D., 2016, Modeling wave attenuation induced by vertical variation of vegetation density, Coastal Engineering, 112, 17-27, doi:10.1016/j.coastaleng.2016.02.004

28. Shi J., Shi F., Kirby J.T., Ma G. and Wu 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

29. 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

30. Su S.-F., Ma G. and Tsu T.-W., 2015, Boussinesq modeling of spatial variability of infragravity waves on fringing reefs, Ocean Engineering, 101, 78-92, doi:10.1016/j.oceaneng.2015.04.022

31. Tian M., Sheremet A., Kaihatu J.M. and Ma G., 2015, On the shoaling of solitary waves in the presence of short random waves, Journal of Physical Oceanography, 45, 792-806, doi: 10.1175/JPO-D-14-0142.1

32. Ma G., Han Y., Niroomandi A. Lou S. and Liu S., 2015, Numerical study of sediment transport on a tidal flat with a patch of vegetation, Ocean Dynamics, 65, 203-222, doi:10.1007/s10236-014-0804-8

33. Grilli S.T., O’Reilly C., Harris J.C., Bakhsh T.T., Tehranirad B., Kirby J.T., Baxter C., Eggeling T., Ma G. and Shi F., 2015, Modeling of SMF tsunami hazard along the upper US East Coast: Detailed impact around Ocean City, MD, Natural Hazards, doi:10.1007/s11069-014-1522-8

34. Keshtpoor M., Puleo J.A., Shi F. and Ma G., 2015, 3D numerical simulation of turbulence and sediment transport within a tidal inlet, Coastal Engineering, 96, 13-26, doi:10.1016/j.coastaleng.2014.10.009

35. 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, 357, 344-361, doi:10.1016/j.margeo.2014.09.043, also see news in science (Note: The most downloaded paper.)

36. Ma G., Shi F., Hsiao S.-C. and Wu Y.-T., 2014, Non-hydrostatic modeling of wave interactions with porous structures, Coastal Engineering, 91, 84-98, doi:10.1016/j.coastaleng.2014.05.004

37. Ma G., Su S.-F., Liu S. and Chu J.-C., 2014, Numerical simulation of infragravity waves in fringing reefs using a shock-capturing non-hydrostatic model, Ocean Engineering, 85, 54-64, doi:10.1016/j.oceaneng.2014.04.030

38. Ma G., Chou Y.-J. and Shi F., 2014, A wave-resolving model for nearshore suspended sediment transport, Ocean Modelling, 77, 33-49, doi:10.1016/j.ocemod.2014.03.003

39. Reckley A.R., Hsu W.-W., Chen C.-H., Ma G. and Huang E.-W., 2014, Sensor selection and integration to improve video segmentation in complex environments, Mathematical Problems in Engineering, 2014, doi:10.1155/2014/654790

40. 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

41. 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

42. 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

43. Sheng Y.P., Lapetina A. and Ma G., 2012, The reduction of storm surge by vegetation canopies: Three-dimensional simulations, Geophysical Research Letter, 39, L20601, doi:10.1029/2012GL053577

44. 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 (Note: The most downloaded paper in 2013.)

45. Ma G., Shi F. and Kirby J.T., 2011, A polydisperse two-fluid model for surf zone bubble simulation, Journal of Geophysical Research, 116, C05010, doi:10.1029/2010JC006667

46. Ma G., Shi F., Liu S. and Qi D., 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

47. Shi F., Kirby J.T. and Ma G., 2010, Modeling quiescent phase transport of air bubbles induced by breaking waves, Ocean Modelling, 35, 105-117, doi:10.1016/j.ocemod.2010.07.002

48. Ma G., Liu S. and Qi D., 2007, Study of back-silting strength in the northern passage channel of Changjiang Estuary, Acta Oceanologica Sinica, 26, 56-64

49. Ma G., Liu S. and Qi D., 2006, Three dimensional hydrodynamic model of Yangtze Estuary, Journal of Hydrodynamics, Ser. A, 21, 53-61

Conference Proceedings

1. Ma G., 2014, Modeling wave damping and sediment transport within a patch of vegetation, Proceedings of 34th International Conference on Coastal Engineering, ICCE2014, Soul, Korea

2. Grilli S.T., Harris J.C., Kirby J.T., Shi F., Ma G., Masterlark T., Tappin D. and Tajalli Bakhsh T.S., 2013, Modeling of the Tohoku-Oki 2011 Tsunami generation, far-field and coastal impact: A mixed co-seismic and SMF source, Proceedings of 7th International Conference on Coastal Dynamics, Bordeaux University, France, June 24-28

3. Grilli S.T., Harris J.C., Tajali-Bakhsh T.S., Tappin D.R., Masterlark T., Kirby J.T., Shi F. and Ma G., 2012, Recent progress in the nonlinear and dispersive modeling of tsunami generation and coastal impact: Application to Tohoku 2011, 13èmes Journées de I’Hydrodynamique, Laboratoire d’hydraulique Saint-Venant Ile des Impressionnistes, Chatou, France, Nov. 21-23

4. Kirby J.T., Ma G. and Shi F., 2012, Numerical investigation of turbulent bubbly flow under breaking waves, Proceedings of 33rd International Conference of Coastal Engineering, ICCE2012, Santander, Spain, July 1-6

5. Shi F., Ma G., Kirby J.T. and Hsu T.-J., 2012, Application of a TVD solver in a suite of coastal engineering models, Proceedings of 33rd International Conference of Coastal Engineering, ICCE2012, Santander, Spain, July 1-6

6. Qi D., Ma G., Gu F. and Mou L., 2010, An unstructured grid hydrodynamic and sediment transport model for Changjiang Estuary, Proceedings of 9th International Conference on Hydrodynamics, Shanghai, China, Oct. 11-15

7. Shi F., Ma G. and Kirby J.T., 2010, Numerical modeling of optical properties inside the surfzone, Porceedings of 32nd International Conference of Coastal Engineering, ICCE2010, Shanghai, China, June 30 – July 5

8. Ma G., Shi F. and Kirby J.T., 2010, A polydisperse two-fluid model for bubble plumes under breaking waves, Proceedings of 7th International Conference on Multiphase Flow, ICMF2010, Tampa, FL, May 30 – June 4

9. Liu S., Zhu H. and Ma G., 2005, Flood frequency study in the lower reach of the Yellow River by regional L-moments analysis method, Proceedings of the 2nd International Symposium on Methodology in Hydrology, Nanjing, China, Oct. 30 – Nov. 1

10. Liu S., Zhu H. and Ma G., 2004, Changing trend of runoff and sediment transport in the lower yellow river: wavelet analysis, Proceedings of the 9th International Symposium on River Sedimentation, Yichang, China, Oct. 18 – Oct. 21

11. Ma G. and Liu S., 2003, A forecasting model of delta evolution using artificial neural networks, Proceedings of the 1st International Conference on Estuaries and Coasts, ICEC2003, Hangzhou, China, Nov. 9 – Nov. 11