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Publication

  1st author publication by graduate student supervised

*  Corresponding author

2024

[85] †Jeon, B.J., Jeong, S.W., Jeon, I., and *Ha, H.K., 2024.Influence of tidal asymmetry on local scour near the offshore platform. Regional Studies in Marine Science, 80, 103891 (doi.org/10.1016/j.rsma.2024.103891) (12/20/2024).

[84] †Choi, S.M., and *Ha, H.K., 2024.Changes in the suspended floc properties by bed erosion in a macrotidal muddy flat: Case of Asan Bay, Korea. Regional Studies in Marine Science, 78, 103756 (doi.org/10.1016/j.rsma.2024.103756)(12/15/2024).

[83] Lee, J., Noh, J., Lee, C. Lee, I.O., Kwon, I., Kwon, B.-O., Lee, M.J., Lee, J.-H., Ryu, J., Kim, J., Kang, H., Ha, H.K., Lee, S.Y., Wang, T., and Khim, J.S., (accepted) Effects of exotic Spartina alterniflora invasion on benthic environments in the Yellow Sea. Marine Pollution Bulletin. (doi.org/10.1016/j.marpolbul.2024.117017)(11/1/2024).

 

[82] †Ha, H.J., Kim, J.S., and *Ha, H.K., 2024. Dynamic behaviors of suspended sediment and chlorophyll-a in intertidal flats under episodic meteorological events. Marine Geology, 474, 107341. (doi.org/10.1016/j.margeo.2024.107341)(8/1/2024).

 

[81] †Seo, J.Y., Choi, B.-J., Choi, S.M., Ryu, J., and *Ha, H.K., 2024. Contribution of coastal seiches to sediment transport in a microtidal semi-enclosed bay. Frontiers in Marine Science, 11, 1392435. (doi.org/10.3389/fmars.2024.1392435)(6/21/2024).

[80] 김지하, 최병주, 최재성, 하호경, 2024. 3차원 수치모의 실험을 통한 진해·마산만의 계절별 해수순환과 염하구 특성. [바다]지, 29(2), 77-100. (doi.org/10.7850/jkso.2024.29.2.077)(5/31/2024).

[79] †Kim, S.I., Seo, J.Y., Park, J.-H., Kim, P.J., Kim, I.G., Kim, K.M. and *Ha, H.K., 2024. Imbalance of sediment transport in a meso-tidal bay: Effect of tidal pumping and residual circulation. Frontiers in Marine Science, 11, 1362583. (doi.org/10.3389/fmars.2024.1362583)(4/11/2024).

[78] Hwang, Y., Lee, E.-J., Song, H., Kim, B.N., Ha, H.K., Choi, Y.H., Kwon, J.-I., and Park, J.- H., 2024. Estimating three-dimensional current fields in the Yeosu Bay using coastal acoustic tomography system. Frontiers in Marine Science. 11:1362335 (doi.org/10.3389/fmars.2024.1362335)(02/26/2024).

[77] Shen, X., Lin, M., Pan, F., Maa, J.P.-Y., Ha, H.K., Bi, Q., Shao, Y., Zhang, J., and Wu, Z., 2024. Viscosity of cohesive sediment-laden flows: Experimental and empirical methods. Journal of Geophysical Research: Oceans, 129, e2023JC020043 (doi.org/10.1029/2023JC020043)(02/01/2024). 

[76] †Lee, S., Chae, J.Y., Park, J.-H. Kim, Y.T., Kang, B., Shin, C.W., and *Ha, H.K., 2024. Remote impacts of low-latitude oceanic climate on coastal upwelling in a marginal sea of the Northwestern Pacific. Regional Studies in Marine Science, 69, 103344. (doi.org/10.1016/j.rsma.2023.103344)(01/01/2024).

2023

[75] †Choi, S.M., Seo, J.Y., and *Ha, H.K., 2023. Contribution of local erosion enhanced by winds to sediment transport in intertidal flat. Marine Geology, 465, 107171 (doi.org/10.1016/j.margeo.2023.107171)(11/1/2023).

[74] †Jeong, S.W., Ha, H.J., Kim, K.M., and *Ha, H.K., 2023. Benthic sediment disturbances by episodic human-controlled discharge in an altered estuary. Marine Geology, 465, 107168 (doi.org/10.1016/j.margeo.2023.107168)(11/1/2023).

[73] †Seo, J.Y., Kim, Y.H., Ryu, J., and *Ha, H.K., 2023. Wind-induced switch of estuarine residual circulations and sediment transport in microtidal bay. Estuarine, Coastal and Shelf Science 288, 108371 (doi.org/10.1016/j.ecss.2023.108371)(8/5/2023).

[72] †하헌준, 이경은, *하호경, 2023. 필리핀해 큐슈-팔라우 해령 심해표층 퇴적물의 침식거동 특성. 한국수로학회지, 12(1), 27-34 (in Korean with English Abstract)(6/30/2023).

[71] †정성운, 전병진, *하호경, 2023. 해상 인공구조물 주변 국지세굴 감지 및 예측 기술: 현황과 제언. 한국수로학회지, 12(1), 3-13 (in Korean with English Abstract)(6/30/2023).

2022

[70] †Son, E.Y., Kawaguchi, Y., Cole, S.T., Toole, J.M., and Ha, H.K., 2022. Assessment of turbulent mixing associated with eddy-wave coupling based on autonomous observations from the Arctic Canada Basin. Journal of Geophysical Research: Oceans, 127, e2022JC018489 (doi.org/10.1029/2022JC018489)(9/6/2022).

[69] †Seo, J.Y., Choi, B.J., Ryu, J., and *Ha, H.K., 2022. Dynamic evolution of a secondary turbidity maximum under various forcing conditions in a microtidal estuary. Marine Geology, 446, 106760 (doi.org/10.1016/j.margeo.2022.106760)(4/1/2022).

[68] Yang, H.W., Kim, T.-W., Ha, H.K., Kim, C.S., Cho, K.H., Wåhlin, A.K., Park, T., Lee, S.H., Jenkins, A., Dutrieux, P., and Cho, Y.K. 2022. Seasonal variability of ocean circulation near the Dotson Ice Shelf, Antarctica. Nature Communications, 13, 1138 (doi.org/10.1038/s41467-022-28751-5)(3/3/2022).

[67] †Jung, Y.H., Park, J.H., Hirose, N., Yeh, S.W., Kim, K.J., and *Ha, H.K., 2022. Remote impacts of 2009 and 2015 El Niño on oceanic and biological processes in a marginal sea of the Northwestern Pacific. Scientific Reports, 12, 741 (doi.org/10.1038/s41598-021-04310-8)(1/14/2022).

2021

[66] †Choi, S.M., Seo, J.Y., Jeong, S.W., Lee, M.J., and *Ha, H.K., 2021. Disturbance of sedimentary processes in tidal salt marshes invaded by exotic vegetation. Science of The Total Environment, 799, 149303 (doi.org/10.1016/j.scitotenv.2021.149303)(12/10/2021).

[65] Kim, T.W., Yang, H.W., Dutrieux, P., Wåhlin, A.K., Jenkins, A., Kim, Y.G., Ha, H.K., Kim, C.S., Cho, K.H., Park, T., Park, J., Lee, S.H., and Cho, Y.K., 2021. Interannual variation of modified Circumpolar Deep Water in the Dotson-Getz Trough, West Antarctica. Journal of Geophysical Research: Oceans, 126, e2021JC017491 (doi.org/10.1029/2021JC017491)(12/1/2021).

[64] †서준영, 최선민, 이성호, 김수인, *하호경, 2021. 바다골재 채취과정에서 발생하는 부유사플룸의 농도측정법 리뷰. 해양환경에너지학회, 24(4), 210-222 (doi.org/10.7846/JKOSMEE.2021.24.4.210)(11/30/2021).

[63] Ha, H.J., and *Ha, H.K., 2021. Comparison of methods for determining erosion threshold of cohesive sediments using a microcosm system. Frontiers in Marine Science, 8, 695845 (doi: 10.3389/fmars.2021.695845)(11/4/2021).

[62] Kim, B., Lee, J., Noh, J., Bae, H., Lee, C., Ha, H.J., Hwang, K., Kim, D.-U., Kwon, B.-O., Ha, H.K., Pierre, G., Delattre, C., Michaud, P., and Khim, J.S., 2021. Spatiotemporal variation of extracellular polymeric substances (EPS) associated with the microphytobenthos of tidal flats in the Yellow Sea. Marine Pollution Bulletin, 171, 112780 (doi.org/10.1016/j.marpolbul.2021.112780)(10/1/2021).

[61] †Choi, S.M., Seo, J.Y., Lee, G.H., Shen, X., and *Ha, H.K., 2021. Practical method to screen contaminated holograms of flocs using light intensity. Frontiers in Marine Science, 8, 695510 (doi:10.3389/fmars.2021.695510)(7/5/2021)

[60] †Kim, J.W., *Ha, H.K., Woo, S.B., Kim, M.S., and Kwon, H.K., 2021. Unbalanced sediment transport by tidal power generation in Lake Sihwa. Renewable Energy. 172, 1133–1144 (doi.org/10.1016/j.renene.2021.03.088) (7/1/2021)

[59] †Seo, J.Y., Choi, S.M., and *Ha, H.K., 2021. Assessment of potential impact of invasive vegetation on cohesive sediment erodibility in intertidal flat. Science of The Total Environment. 766, 144493 (doi.org/10.1016/j.scitotenv.2020.144493)(4/20/2021).

[58] Shen, X., Lin, M., Zhu, Y., Ha, H.K., Fettwies, M., Hou T., Toorman, E.A., Maa, J.P.-Y., and Zhang, J. 2021. A quasi-Monte Carlo based flocculation model for fine-grained cohesive sediments in aquatic environments. Water Research, 194, 116953 (doi.org/10.1016/j.watres.2021.116953)(4/15/2021)

[57] †Ha, H.J., *Chang, T.S., and *Ha, H.K., 2021. Using end–member analysis to determine sediment dispersal and depositional processes on the Heuksan mud belt, southwest Korean shelf. Geo-Marine Letters, 41, 7 (doi.org/10.1007/s00367-020-00672-6)(3/1/2021). *Co-corresponding authors

2020

[56] †Seo, J.Y., Choi, S.M., *Ha, H.K., Lee, K.E., Enhanced erodibility of deep-sea sediments by presence of calcium carbonate particles. Geo-Marine Letters 40, 1–13 (doi.org/10.1007/s00367-020-00651-x) (9/18/2020).

[55] †Do, J.D., *Chang, Y.S., Jin, J.Y., Jeong, W.M., Lee, B.G., *Ha, H.K., 2020. Hydrodynamic measurements of propagating waves at different nearshore depths in Hujeong Beach, Korea. Journal of Marine Science and Engineering, 8, 690 (doi:10.3390/jmse8090690) (9/7/2020). *Co-corresponding authors

[54] 서준영, 정성운, 최선민, *하호경, 2020. 갯끈풀의 성장에 의한 강화갯벌의 표고와 퇴적물입도 변화. 한국수로학회지, 9(1), 45-51 (in Korean with English Abstract).

[53] †Ha, H.J., Kim, H.S., Kwon, B.O., *Khim, J.S., and *Ha, H.K., 2020. Influence of tidal forcings on the microphytobenthic resuspension dynamics and sediment fluxes in a disturbed coastal environment. Environment International, 139, 105743 (doi.org/10.1016/j.envint.2020.105743)(6/1/2020).

[52] Park, Y.G., Kim, Y.H., Seo, S.B., Hwang, J.H., and Ha, H.K., 2020. Environmental impact assessment of carbon storage using a CO2 bubble model. Journal of Coastal Research, 95(sp1), 138-142 (doi.org/10.2112/SI95-027.1)(5/26/2020).

[51] *Wåhlin, A.K., Steiger, N., Darelius, E., Assmann, K.M., Glessmer, M.S., Ha, H.K., Herraiz-Borreguero, L., Heuze, C., Jenkins, A., Kim, T.W., Mazur, A.K., Sommeria, J., and Viboud, S., 2020. Ice front blocking of ocean heat transport to an Antarctic ice shelf. Nature. 578, 568–571 (doi.org/10.1038/s41586-020-2014-5)(2/26/2020).

2019

[50] La, H.S., Park, K.H., Wåhlin, A.K., Arrigo, K.R., Kim, D.S., Yang, E.J., Atkinson, A., Fielding, S., Im, J., Kim, T.W., Shin, H.C., Lee, S.H., and *Ha, H.K., 2019. Zooplankton and micronekton respond to climate fluctuations in the Amundsen Sea polynya, Antarctica. Scientific Reports, 9, 10087 (doi.org/10.1038/s41598-019-46423-1)(7/12/2019).

2018

[49] Choi, S.M., Seo, J.Y., *Ha, H.K., and Lee, G.-H., 2018. Estimating effective density of cohesive sediment using shape factors from holographic images. Estuarine, Coastal and Shelf Science, 215, 144–151 (doi.org/10.1016/j.ecss.2018.10.008)(12/31/2018).

[48] *이관홍, 박재훈, 하호경, 김도완, 이우주, 김홍태, 신현정, 2018. 이내비게이션을 활용한 해양환경관측 및 빅데이터 분석연구. [바다]지, 23, 204–217 (in Korean with English Abstract). (doi.org/10.7850/jkso.2018.23.4.204)(12/1/2018).

[47] Ha, H.J., Kim, H.S., Noh, J., *Ha, H.K., and *Khim, J.S., 2018. Effects of rainfall on the erodibility of sediment and microphytobenthos in the intertidal flat. Environmental Pollution, 242, 2051–2058 (doi.org/10.1016/j.envpol.2018.06.079)(11/1/2018)

[46] *Ha, H.K., Ha, H.J., Seo, J.Y., and Choi, S.M., 2018. Effects of vegetation and fecal pellets on the erodibility of cohesive sediments: Ganghwa tidal flat, west coast of Korea. Environmental Pollution, 241, 468–474 (doi:10.1016/j.envpol.2018.05.067)(10/1/2018).

[45] *Jenkins, A., Shoosmith, D., Dutrieux, P., Jacobs, S., Kim, T.W., Lee, S.H., Ha, H.K., and Stammerjohn, S., 2018. West Antarctic Ice Sheet retreat in the Amundsen Sea driven by decadal ocean variability. Nature Geoscience, 11, 733-738 (doi:10.1038/s41561-018-0207-4)(8/13/2018).

[44] Kim, Y.H., Sugarman, D., Kim, H.-C., Son, S., Ha, H.K., Chang, W.K., Han, K.W., and *Ryu, J.S., 2018. Implementation of a numerical model of metals for total maximum daily loads (TMDLs) in Onsan Harbor, Korea. Journal of Coastal Research, SI85, 1506–1510 (doi:10.2112/SI85-302.1)(5/13/2018).

[43] *Ha, H.K., Seo, J.Y., Jung, Y.H., Kim, S.B., Kang, J.W., Ha, H.J., Kim, Y.H., and Ryu, J.S., 2018. Dynamics of sediment resuspension in the inner harbor under the different forcing conditions: A case study of Ulsan, Korea. Journal of Coastal Research, SI85, 451–455 (doi:10.2112/SI85-091.1)(5/13/2018).

[42] Ha, H.J., Choi, S.M., Seo, J.Y., and *Ha, H.K., 2018. Erodibility of sand-mud mixed sediment on the Yeochari tidal flat, Gyeonggi Bay, Korea. Journal of Coastal Research, SI85, 416–420 (doi:10.2112/SI85-084.1)(5/13/2018)

[41] Kim, N.H., Pham, V.S., *Hwang, J.H., Won, N.I., Ha, H.K., Im, J.H., and Kim, Y., 2018. Effects of seasonal variations on sediment-plume streaks from dredging operations. Marine Pollution Bulletin, 129, 26–34 (doi:10.1016/j.marpolbul.2018.02.014)(4/1/2018).

[40] *La, H.S., Shimada, K., Yang, E.J., Cho, K.H., Ha, S.Y., Jung, J.Y., Min, J.O., Kang, S.H., and Ha, H.K., 2018. Further evidence of diel vertical migration of copepods under Arctic sea ice during summer. Marine Ecology Progress Series, 592, 283–289 (doi:10.3354/meps12484)(3/29/2018).

[39] Seo, J.Y., *Ha, H.K., Im, J.H., Hwang, J.H., Choi, S.M., Won, N.I., and Kim, Y., 2018. Impact of seasonal vertical stratification on the dispersion patterns of dredging plumes off the south coast of Korea. Marine Geology, 395, 14–21 (doi:10.1016/j.margeo.2017.09.005)(1/1/2018).

2017

[38] Lee, S.H., *Hwang, J.S., Ducklow, H., Hahm, D., Lee, S.H., Kim, D.S., Hyun, J.H., Park, J.S., Ha, H.K., Kim, T.W., Yang, E.J., and Shin, H.C., 2017. Evidence of minimal carbon sequestration in the productive Amundsen Sea Polynya. Geophysical Research Letters, 44, 7892–7899 (doi:10.1002/2017GL074646)(8/13/2017).

[37] †Kim, J.W., *Ha, H.K., and Woo, S.B., 2017. Dynamics of sediment disturbance by periodic artificial discharges from the world’s largest tidal power plant. Estuarine, Coastal and Shelf Science, 190, 69–79 (doi:10.1016/j.ecss.2017.03.029)(5/5/2017)

[36] *Webber, B.G.M, Heywood, K.J., Stevens, D.P., Dutrieux, P. Abrahamsen, E.P., Jenkins, A., Jacobs, S.S., Ha, H.K., Lee, S.H., and Kim, T.W., 2017. Mechanisms driving variability in the ocean forcing of Pine Island Glacier. Nature Communications, 8, 14507 (doi: 10.1038/ncomms14507)(2/17/2017).

[35] Kim, T.W., Ha, H.K., *Wåhlin, A.K., Lee, S.H., Kim, C.S., Lee, J.H., and Cho, Y.G., 2017. Is Ekman pumping responsible for the seasonal variation of warm circumpolar deep water in the Amundsen Sea? Continental Shelf Research, 132, 38–48 (doi:10.1016/j.csr.2016.09.005)(1/1/2017).

2016

[34] Kim, C.S., *Kim, T.W., Cho, K.H., Ha, H.K., Lee, S.H., Kim, H.C., and Lee, J.H., 2016. Variability of the Antarctic Coastal Current in the Amundsen Sea. Estuarine, Coastal and Shelf Science, 181, 123–133 (doi:10.1016/j.ecss.2016.08.004)(11/5/2016).

[33] *Wåhlin, A.K., Kalén, O., Assmann, K.M., Darelius, E., Ha, H.K., Kim, T.W., and Lee, S.H., 2016. Sub-inertial oscillations on the Amundsen Sea shelf, Antarctica. Journal of Physical Oceanography, 46(9), 2573–2582 (doi:10.1175/JPO-D-14-0257.1)(9/1/2016).

[32] Park, J.H., Kim, Y.S., *Lee, H.J., Lee, H.Y., Ha, H.K., Park, Y.G., Jeon, C.H., and Hirose, N., 2016. Internal tide-induced enhancement of cold water intrusion on the continental shelf of the Korea Strait. Journal of Coastal Research, SI75, 542–546 (doi:10.2112/SI75-109.1)(3/1/2016).

[31] Han, D., Nam, S.I., Ha, H.K., Kim, H.J., Sadowsky, M.J., Lee, Y.K., and *Hur, H.G., 2016.  Bacterial biogeography influenced by shelf-basin exchange in the Arctic surface sediment at the Chukchi Borderland. Environmental Microbiology, 18(2), 668–678 (doi:10.1111/1462-2920.13064)(2/1/2016).

[30] *Miles, T., Lee, S.H., Wåhlin, A.K., Ha, H.K., Kim, T.W., Assmann, K., and Schofield, O., 2016. Glider observations of the Dotson Ice Shelf outflow. Deep Sea Research II, 123, 16–29 (doi:10.1016/j.dsr2.2015.08.008)(1/1/2016).

[29] *Kalén, O., Assmann, K.M., Wåhlin, A.K., Ha, H.K., Kim, T.W., and Lee, S.H., 2016. Is the ocean heat flux on the central Amundsen Sea shelf caused by barotropic or baroclinic currents? Deep Sea Research II, 123, 7–15 (doi:10.1016/j.dsr2.2015.07.014)(1/1/2016).

2015

[28] *La, H.S., Kang, M.H., Dahms, H.-U., Ha, H.K., Yang, E.J., Lee, H.B., Kim, Y.N., Chung, K.H., and Kang, S.H., 2015. Characteristics of mesozooplankton sound-scattering layer in the Pacific Summer Water, Arctic Ocean. Deep Sea Research II, 120, 114–123 (doi:10.1016/j.dsr2.2015.01.005)(10/1/2015).

[27] *Yang, E.J., Ha, H.K., and Kang, S.H., 2015. Microzooplankton community structure and grazing impact on major phytoplankton in the Chukchi Sea and the western Canada Basin, Arctic Ocean. Deep Sea Research II, 120, 91–102 (doi:10.1016/j.dsr2.2014.05.020)(10/1/2015).

[26] Han, D., Ha, H.K., Hwang, C.Y., Lee, B.Y., Hur, H.-G., and *Lee, Y.K., 2015. Bacterial communities along stratified water columns in the Chukchi Borderland in the western Arctic Ocean. Deep Sea Research II, 120, 52–60 (doi:10.1016/j.dsr2.2015.01.018)(10/1/2015).

[25] Kim, Y.H., *Ha, H.K., Lee, S.H., Kim, H.C., Lee, H.J., Hwang, B., and Park, J.H., 2015. Entrainment induced near-inertial drift of sea ice and its impact on under-ice biogeochemistry processes in marginal ice zones. Deep Sea Research II, 120, 21–34 (doi:10.1016/j.dsr2.2014.05.019)(10/1/2015).

[24] Kim, J.W., *Kim, D.J., Kim, S.H., Ha, H.K., and Lee, S.H., 2015. Disintegration and acceleration of Thwaites Ice Shelf on the Amundsen Sea revealed from remote sensing measurements. GIScience and Remote Sensing, 52(4), 498–509 (doi:10.1080/15481603.2015.1041766)(8/1/2015).

[23] *Yoshizawa, E., Shimada, K., Ha, H.K., Kim, T.W., Kang, S.H., and Chung, K.H., 2015. Delayed responses of the oceanic Beaufort Gyre to winds and sea ice motions: Influences on variations of sea ice cover in the Pacific sector of the Arctic Ocean. Journal of Oceanography, 71(2), 187–197 (doi:10.1007/s10872-015-0276-6)(4/1/2015).

[22] *Ha, H.K., Kim, Y.H., Lee, H.J., Hwang, B., and Joo, H.M., 2015. Under-ice measurements of suspended particulate matters using ADCP and LISST-Holo. Ocean Science Journal, 50(1), 97–108 (doi:10.1007/s12601-015-0008-2)(3/1/2015).

[21] La, H.S., *Ha, H.K., Kang, C.Y., Wåhlin, A.K., and Shin, H.C., 2015. Acoustic backscatter observations with implications for seasonal and vertical migrations of zooplankton and nekton in the Amundsen shelf (Antarctica). Estuarine, Coastal and Shelf Science, 152, 124–133 (doi:10.1016/j.ecss.2014.11.020)(1/5/2015).

[20] La, H.S., Lee, H.B., Fielding, S., Kang, D., Ha, H.K., Atkinson, A., Park, J.S., Siegel, V., Lee, S.H., and *Shin, H.C., 2015. High density of ice krill (Euphausia crystallorophias) in the Amundsen Sea coastal polynya, Antarctica. Deep Sea Research I, 95, 75–84 (doi:10.1016/j.dsr.2014.09.002)(1/1/2015).

2014

[19] *Timmermans, M.-L., Ashik, I., Frolov, I., Ha, H.K., Ingvaldsen, R., Kikuchi, T., Kim, T.W., Krishfield, R., Loeng, H., Nishino, S., Pickart, R., Polyakov, I., Rabe, B., Schauer, U., Schlosser, P., Smethie, W.M., Sokolov, V., Steele, M., Toole, J., Williams, W., Woodgate, R., and Zimmerman, S., 2014. [The Arctic] Ocean Temperature and Salinity [in “State of the Climate in 2013”]. Bulletin of the American Meteorological Society, 95, S128–S132 (7/1/2014). 

[18] Ha, H.K., *Wåhlin, A.K., Kim, T.W., Lee, S.H., Lee, J.H., Lee, H.J., Hong, C.S., Arneborg, L., Björk, G., and Kalén, O., 2014. Circulation and modification of warm deep water on the central Amundsen Shelf. Journal of Physical Oceanography, 44(5), 1493–1501 (doi:10.1175/JPO-D-13-0240.1)(5/1/2014).

[17] Kim, Y.H., *Im, J., Ha, H.K., Choi, J.-K., and Ha, S., 2014. Machine learning approaches to coastal water quality monitoring using GOCI satellite data. GIScience and Remote Sensing, 51(2), 158–174 (4/3/2014).

[16] Lee, H.J., *Lee, H.J., Park, J.-H., and Ha, H.K., 2014. Seasonal variability of internal tides around the Korea Strait: 3-D high-resolution model simulation. Ocean and Polar Research, 36(1), 1–12 (in Korean with English Abstract)(3/1/2014).

[15] Han, D., Kang, I., Ha, H.K., Kim, H.C., Kim, O.-S., Lee, B.Y., Cho, J.-C., Hur, H.-G., and *Lee, Y.K., 2014. Bacterial communities of surface mixed layer in the Pacific sector of the Western Arctic Ocean during sea-ice melting. PLOS ONE, 9(1), e86887 (doi:10.1371/journal.pone.0086887)(1/31/2014).

[14] *Dutrieux, P., De Rydt, J., Jenkins, A., Holland, P.R., Ha, H.K., Lee, S.H., Steig, E.J., Ding, Q., Abrahamsen, E.P., and Schröder, M., 2014. Strong sensitivity of Pine Island Ice-Shelf melting to climate variability. Science, 343, 174–178 (doi:10.1126/science.1244341)(1/10/2014).

2013

[13] *Wåhlin, A.K., Kalén, O., Arneborg, L., Björk, G., Carvajal, G., Ha, H.K., Kim, T.W., Lee, S.H., Lee, J.H., and Stranne, C., 2013. Variability of warm deep water inflow in a submarine trough on the Amundsen Sea Shelf. Journal of Physical Oceanography, 43, 2054–2070 (doi:10.1175/JPO-D-12-0157.1)(10/1/2013).

[12] Lee, D.B., Choi, K.H., Ha, H.K., Yang, E.J., Lee, S.H., Lee, S.-H., and *Shin, H.C., 2013. Mesozooplankton distribution patterns and grazing impacts of copepods and Euphausia crystallorophias in the Amundsen Sea, West Antarctica, during austral summer. Polar Biology, 36, 1215–1230 (doi:10.1007/s00300-013-1314-8)(6/1/2013).

[11] *Lee, S.H., Lee, H.J., Park, J.-Y., Jeong, E.Y., Yoo, J., Ha, H.K., Shin, C.W., and Park, C.H., 2013. Possible origin of coastal sands and their long-term distribution along the high slope-gradient, wave-dominated eastern coast, Korea. Geosciences Journal, 17(2), 163–172 (doi:10.1007/s12303-013-0010-6)(7/1/2013).

2012

[10] *Wåhlin, A.K., Muench, R.D., Arneborg, L., Björk, G., Ha, H.K., Lee, S.H., and Alsén, H., 2012. Some implications of Ekman layer dynamics for cross-shelf exchange in the Amundsen Sea. Journal of Physical Oceanography, 42, 1461–1474 (doi:10.1175/JPO-D-11-041.1)(9/1/2012).

[9] *Ha, H.K., and Park, K., 2012. High-resolution comparison of sediment dynamics under different forcing conditions in the bottom boundary layer of a shallow, micro-tidal estuary. Journal of Geophysical Research, 117, C06020 (doi:10.1029/2012JC007878)(6/28/2012).

2011

[8] Dzwonkowski, B., *Park, K. and Ha, H.K., Graham, W.M., Hernandez, F.J., and Powers, S.P., 2011. Hydrographic variability on a coastal shelf directly influenced by estuarine outflow. Continental Shelf Research, 31, 939–950 (doi:10.1016/j.csr.2011.03.001)(6/1/2011).

[7] *Ha, H.K., Maa, J.P.-Y., Park, K., and Kim, Y.H., 2011. Estimation of high-resolution sediment concentration profiles in bottom boundary layer using pulse-coherent acoustic Doppler current profilers. Marine Geology, 279, 199–209 (doi:10.1016/j.margeo.2010.11.002)(1/15/2011).

2010

[6] *Ha, H.K., Maa, J.P.-Y., and Holland, C.W., 2010. Acoustic density measurements of consolidating cohesive sediment beds by means of a non-intrusive “Micro-Chirp” acoustic system. Geo-Marine Letters, 30(6), 585–593 (doi:10.1007/s00367-010-0206-y)(12/1/2010).

[5] *Ha, H.K., and Maa, J.P.-Y., 2010. Effects of suspended sediment concentration and turbulence on settling velocity of cohesive sediment. Geosciences Journal, 14(2), 163–171 (6/1/2010).

2009

[4] *Ha, H.K., and Maa, J.P.-Y., 2009. Evaluation of two conflicting paradigms for cohesive sediment deposition. Marine Geology, 265, 120–129 (doi:10.1016/j.margeo.2009.07.001)(9/15/2009).

[3] *Ha, H.K., Hsu, W.-Y., Maa, J.P.-Y., Shao, Y., and Holland, C.W., 2009. Using ADV backscatter strength for measuring suspended cohesive sediment concentrations. Continental Shelf Research, 29, 1310–1316 (doi:10.1016/j.csr.2009.03.001) (5/30/2009).

Before 2009

[2] *Maa, J.P.-Y., Kwon, J.-I., Hwang, K.-N., and Ha, H.K., 2008. Critical bed-shear stress for cohesive sediment deposition under steady flows. Journal of Hydraulic Engineering, 134(12), 1767–1771 (12/1/2008).

[1] Ha, H.K., and *Chough, S.K., 2003. Intermittent turbulent events over current ripples: a motion-picture analysis of flume experiments. Sedimentary Geology, 161, 295–308 (10/1/2003).

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