REFEREED JOURNALS
1. Feagin, R.A., Chang, K.-A., Huff, T.P., Rodriguez-Iturbe, I., Kim, J.Y., Kaihatu, J., Leonardi, N., Fagherazzi, S. (2023) An asymmetry in wave scaling drives outsized quantities of coastal wetland erosion . Science Advances, 9, eadj2602. https://doi.org/10.1126/sciadv.adj2602
2. Kim, J.‐Y., Kaihatu, J., Chang, K.‐A., Sun, S.‐H., Huff, T. P., & Feagin, R. A. (2020). Effect of cold front‐induced waves along wetlands boundaries. Journal of Geophysical Research: Oceans, 125, e2020JC016603. https://doi.org/10.1029/2020JC016603
3. Sun, S. H., Chuang, W. L., Chang, K. A., Kim, J. Y., Kaihatu, J., Huff, T., & Feagin, R. (2019). Imaging-based nearshore bathymetry measurement using an unmanned aircraft system. Journal of Waterway, Port, Coastal, and Ocean Engineering, 145(2), 04019002. https://doi.org/10.1061/(ASCE)WW.1943-5460.0000502
4. Kim, J. Y., Yoon, J. S., Lee, P. S., & Kim, Y. S. (2015). Damage assessment of bridges caused by tsunami. Journal of the Korean Society of Hazard Mitigation, 15(3), 339-346.
IN PREPARATION
Lateral erosions of salt marshes in Galveston Bay based on UAV images and its verification with wave climate hindcast model
Hurricane Nicholas (2021) induced waves affecting salt marsh edge erosion along the Galveston area and comparison with cold front induced waves
Comparison of wind climates in reanalysis data sets (EMCWF-ERA5, NCEP) to comprehend the evolution of coastal wetland boundaries
Future simulations for salt marsh erosion projections using a wave climate model with CMIP6 Models (HADGEM3.1, Future atmospheric models based on RCP 8.5)
SELECTED CONFERENCE PROCEEDINGS
Michelle Hummel, Jin-Young Kim, Kasra Naseri. "Assessing the Flood-Reduction Benefits of Dike Relocation and Salt Marsh Restoration in Humboldt Bay, California." AGU2023
Kim, Jin Young, Michelle Hummel, Kasra Naseri, Kevin M. Befus, Aldaron Laird, and Kristen Orth-Gordinier. "Integrating Stakeholder Input in Coastal Resilience Planning and Flood Mitigation." AGU2023.
Chi-Hsiang Huang, Yao Li, Shuai Zhang, SooBum Bae, Jin-Young Kim, Fangzhou Tong, Kuang-An Chang, James Kaihatu, Jens Figlus, Scott Socolofsky, Huilin Gao, High resolution mapping of Texas wetland evolution using Landsat and CubeSat images. AGU Fall Meeting, 2022
Fangzhou Tong, Jens Figlus, Kuang-An Chang, Huilin Gao, James M. Kaihatu, Scott A. Socolofsky, Soo Bum Bae, Jin-Young Kim, Chi-Hsiang Huang, Yao Li, and Shuai Zhang, Hurricane, Cold-Front, and Vessel-Wake Hydrodynamic Impacts on Wetland Edges in Galveston Bay, Texas. AGU Fall Meeting, 2022
Soo Bum Bae, Jin-Young Kim, Chi-Hsiang Huang, Yao Li, Fangzhou Tong, Kuang-An Chang, Jens Figlus, Huilin Gao, James M. Kaihatu, and Scott A. Socolofsky, Detecting Changes of Wetland Boundaries by Applying Particle Image Velocimetry to UAS Orthoimagery in Galveston Bay, Texas. AGU Fall Meeting, 2022
Kim, J. Y., Chang, K. A., Kaihatu, J. M, Verification of wave-induced impact on saltmarsh edges based on UAV images and numerical model. AGU Fall Meeting, 2021, EP35H-1396. https://doi.org/10.1002/essoar.10510522.1
Kim, J. Y., Kaihatu, J. M., Chang, K. A., Huff, T,&Feagin, R. A., Sediment transport and morphodynamics at salt marsh boundary in the shallow bay during cold front passages. AGU Fall Meeting, 2021, EP24A-03. https://doi.org/10.1002/essoar.10510523.1
Kim, J. Y., Chang, K. A., Kaihatu, J. M., Feagin, R. A., & Huff, T. (2020, February). Calculation of wetlands erosion rates using Unmanned Aircraft Systems (UAS) and comparison with hindcast results from the hydrodynamic model. In Ocean Sciences Meeting 2020. AGU.
Kim, J. Y., Kaihatu, J. M., Chang, K. A., Feagin, R. A., & Huff, T. (2019). Estimation of wind-wave induced erosion rates in wetlands on Galveston Island based on UAV photogrammetry. AGUFM, 2019, EP11C-2139.
Kim, J. Y., Kaihatu, J. M., Chang, K. A., Feagin, R. A., & Huff, T. (2019). Effects of cold-front induced waves on the erosion of Galveston Island wetlands : Wave-hydrodynamic-sediment transport model, Texas Sea Grant Research Symposium
Kim, J. Y., Huff, T., Feagin, R. A., Chang, K. A., Kaihatu, J. M., & Sun, S. H. (2017, December). Investigations of barrier island wetlands erosion due to wind-induced waves through combined field, laboratory, and numerical simulation: Is the water level change related to the erosion rate of salt marsh edge?. In 2017 AGU Fall Meeting. AGU.