Haeundae Beach in Korea: Seasonal-to-decadal wave statistics and impulsive beach responses to typhoons

Haeundae Beach represents Korean pocket beaches that are currently erosional and dominated by summertime typhoons. The decadal wave characteristics 9 km offshore of Haeundae Beach were analyzed using the WAM model that was validated through the 2007 wave observations. The wave statistics modelled fo...

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Published in	Ocean science journal Vol. 51; no. 4; pp. 681 - 694
Main Authors	Lee, Hee Jun, Do, Jong-Dae, Kim, Sun Sin, Park, Won-Kyung, Jun, Kicheon
Format	Journal Article
Language	English
Published	Seoul Korea Ocean Research and Development Institute and The Korean Society of Oceanography 01.12.2016 Springer Nature B.V 한국해양과학기술원
Subjects	Accretion Analogs Aquatic Pollution Beaches Coastal erosion Coastal zone management Cycles Earth and Environmental Science Earth Sciences Erosion Foreshore Hurricanes Marine & Freshwater Sciences Oceanography Offshore Sand Sand bars Seasons Significant wave height Significant waves Statistical methods Statistics Summer Surf Surf zone Typhoons Waste Water Technology Water Management Water Pollution Control Wave direction Wave height Wave statistics 해양학 South Korea typhoon bathymetric profiling Haeundae wave beach process WAM modelling
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ISSN	1738-5261 2005-7172
DOI	10.1007/s12601-016-0053-5

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Abstract	Haeundae Beach represents Korean pocket beaches that are currently erosional and dominated by summertime typhoons. The decadal wave characteristics 9 km offshore of Haeundae Beach were analyzed using the WAM model that was validated through the 2007 wave observations. The wave statistics modelled for 1979–2007 indicates that the seasonal mean significant wave height ( H s ) is highest (0.6–0.7 m) in summer due to typhoons, in contrast to the lowest (around 0.5 m) autumn analog. The wave direction is also pronouncedly seasonal with the principal bearings of SSW and NE in the summer and winter seasons, respectively. The WAM results additionally show that the H s has gradually increased over the region of Haeundae Beach since 1993. Beach profiling during June–November 2014 shows the opposite processes of the typhoon and fair-weather on beach sands. During a typhoon, foreshore sands were eroded and then accumulated as sand bars on the surf zone. In the subsequent fair-weather, the sand bars moved back to the beach resulting in the surf-zone erosion and foreshore accretion. A total of 5 cycles of these beach-wide sand movements yielded a net retreat (up to 20 m) of the shoreline associated with large foreshore erosion. However, the surf zone only slightly accumulated as a result of the sand cycles. This was attributed to the sand escape offshore from the westernmost tip of the beach. The present study may provide an important clue to understanding the erosional processes in Haeundae Beach.
AbstractList	Haeundae Beach represents Korean pocket beaches that are currently erosional and dominated by summertime typhoons. The decadal wave characteristics 9 km offshore of Haeundae Beach were analyzed using the WAM model that was validated through the 2007 wave observations. The wave statistics modelled for 1979–2007 indicates that the seasonal mean significant wave height ( H s ) is highest (0.6–0.7 m) in summer due to typhoons, in contrast to the lowest (around 0.5 m) autumn analog. The wave direction is also pronouncedly seasonal with the principal bearings of SSW and NE in the summer and winter seasons, respectively. The WAM results additionally show that the H s has gradually increased over the region of Haeundae Beach since 1993. Beach profiling during June–November 2014 shows the opposite processes of the typhoon and fair-weather on beach sands. During a typhoon, foreshore sands were eroded and then accumulated as sand bars on the surf zone. In the subsequent fair-weather, the sand bars moved back to the beach resulting in the surf-zone erosion and foreshore accretion. A total of 5 cycles of these beach-wide sand movements yielded a net retreat (up to 20 m) of the shoreline associated with large foreshore erosion. However, the surf zone only slightly accumulated as a result of the sand cycles. This was attributed to the sand escape offshore from the westernmost tip of the beach. The present study may provide an important clue to understanding the erosional processes in Haeundae Beach. Haeundae Beach represents Korean pocket beaches that are currently erosional and dominated by summertime typhoons. The decadal wave characteristics 9 km offshore of Haeundae Beach were analyzed using the WAM model that was validated through the 2007 wave observations. The wave statistics modelled for 1979–2007 indicates that the seasonal mean significant wave height (Hs) is highest (0.6–0.7 m) in summer due to typhoons, in contrast to the lowest (around 0.5 m) autumn analog. The wave direction is also pronouncedly seasonal with the principal bearings of SSW and NE in the summer and winter seasons, respectively. The WAM results additionally show that the Hs has gradually increased over the region of Haeundae Beach since 1993. Beach profiling during June–November 2014 shows the opposite processes of the typhoon and fair-weather on beach sands. During a typhoon, foreshore sands were eroded and then accumulated as sand bars on the surf zone. In the subsequent fair-weather, the sand bars moved back to the beach resulting in the surf-zone erosion and foreshore accretion. A total of 5 cycles of these beach-wide sand movements yielded a net retreat (up to 20 m) of the shoreline associated with large foreshore erosion. However, the surf zone only slightly accumulated as a result of the sand cycles. This was attributed to the sand escape offshore from the westernmost tip of the beach. The present study may provide an important clue to understanding the erosional processes in Haeundae Beach. Haeundae Beach represents Korean pocket beaches that are currently erosional and dominated by summertime typhoons. The decadal wave characteristics 9 km offshore of Haeundae Beach were analyzed using the WAM model that was validated through the 2007 wave observations. The wave statistics modelled for 1979–2007 indicates that the seasonal mean significant wave height (Hs) is highest (0.6–0.7 m) in summer due to typhoons, in contrast to the lowest (around 0.5 m) autumn analog. The wave direction is also pronouncedly seasonal with the principal bearings of SSW and NE in the summer and winter seasons, respectively. The WAM results additionally show that the Hs has gradually increased over the region of Haeundae Beach since 1993. Beach profiling during June–November 2014 shows the opposite processes of the typhoon and fair-weather on beach sands. During a typhoon, foreshore sands were eroded and then accumulated as sand bars on the surf zone. In the subsequent fair-weather, the sand bars moved back to the beach resulting in the surf-zone erosion and foreshore accretion. A total of 5 cycles of these beach-wide sand movements yielded a net retreat (up to 20 m) of the shoreline associated with large foreshore erosion. However, the surf zone only slightly accumulated as a result of the sand cycles. This was attributed to the sand escape offshore from the westernmost tip of the beach. The present study may provide an important clue to understanding the erosional processes in Haeundae Beach. KCI Citation Count: 3
Author	Jun, Kicheon Lee, Hee Jun Kim, Sun Sin Park, Won-Kyung Do, Jong-Dae
Author_xml	– sequence: 1 givenname: Hee Jun surname: Lee fullname: Lee, Hee Jun email: heelee@kiost.ac.kr organization: Korean Seas Geosystem Research Center, KIOST – sequence: 2 givenname: Jong-Dae surname: Do fullname: Do, Jong-Dae organization: Coastal Disaster Prevention Research Center, KIOST – sequence: 3 givenname: Sun Sin surname: Kim fullname: Kim, Sun Sin organization: Operational Oceanography Research Center, KIOST – sequence: 4 givenname: Won-Kyung surname: Park fullname: Park, Won-Kyung organization: Coastal & Ocean Engineering Laboratory, DY Engineering Co. Ltd – sequence: 5 givenname: Kicheon surname: Jun fullname: Jun, Kicheon organization: Operational Oceanography Research Center, KIOST
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Cites_doi	10.1029/2000JC900144 10.2112/JCOASTRES-D-11-00138.1 10.2112/04-0231.1 10.4217/OPR.2008.30.4.373 10.2112/SI72-030.1 10.2112/SI72-001.1 10.2112/SI72-012.1 10.2112/SI72-033.1 10.9765/KSCOE.2011.23.3.236 10.9765/KSCOE.2015.27.4.228 10.1007/s12601-014-0010-0 10.1016/0025-3227(84)90008-2 10.2112/SI72-034.1
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References	FolkRLThe distinction between grain size and mineral composition in sedimentary rock nomenclatureJ Geol19546233435910.1086/626171 LeeHJYooJMacrotidal beach processes dominated by winter monsoon: Byunsan, west coast of KoreaJ Coastal Res2012281177118510.2112/JCOASTRES-D-11-00138.1 KomarPDBeach processes and sedimentation1998New JerseyPrentice Hall544 LimHSKimCSLeeHJShimJSKimSJParkKSChunIVariability of residual currents and waves in Haeundae using long-term observed AWAC dataJ Coastal Res Special Issue20147216617210.2112/SI72-030.1 EomHYunJHJeongCKSeoJWYouSHIntroduction to KMA operational forecasting system for rip currentJ Coastal Res Special Issue201472636810.2112/SI72-012.1 LeeHJA review of sediment dynamical processes in the west coast of Korea, eastern Yellow SeaOcean Sci J201449859510.1007/s12601-014-0010-0 RibasFOn the growth of nearshore sand bars as instability processes of equilibrium beach states2003242 YangJYChoiCUAn analysis of the coastal topography and land cover changes in the Haeundae BeachJ Korean Assoc Geogr Inf Stud200691101115 SorensenRMBasic coastal engineering2010New YorkSpringer324 DavisR FGeraldDMBeaches and coasts2004410 ChoungYYunHSDevelopment of a coastal surface monitoring system using high-resolution images taken in Haeundae, South KoreaJ Coastal Res Special Issue20147219019510.2112/SI72-034.1 HolmanRASallengerAHSand bar generation: a discussion of the Duck experiment seriesJ Coastal Res Special Issue1993157692 WrightLDShortADMorphodynamic variability of surf zones and beaches: a synthesisMar Geol1984569311810.1016/0025-3227(84)90008-2 LeeHWangYPChuYSJoHRSuspended sediment transport in the coastal area of Jinhae Bay- Nakdong estuary, Korea StraitJ Coastal Res2006221062106910.2112/04-0231.1 KimILeeJLHwangJSLeeSLeeJVertical structure of rip current observed at Haeundae BeachJ Coastal Res Special Issue2014721510.2112/SI72-001.1 IPCCClimate change 2013: The physical science basis2013CambridgeCambridge University Press129 JeonDRelative sea-level change around the Korean PeninsulaOcean Polar Res20083037337810.4217/OPR.2008.30.4.373 CardoneVJCoxATGreenwoodJATompsonEFUpgrade of tropical cyclone surface wind field model1994102 PlantNGFreilichMHHolmanRARole of morphologic feedback in surf zone sandbar responseJ Geophys Res200110697398910.1029/2000JC900144 KimSYJeongJBLeeBKSeasonal variation of surface sediment distribution and transport pattern offshore Haeundae Beach areaJ Korean Soc Oceanogr2012171624 KODC (2012) Maritime observational data from ship-borne point measurements. Korea Oceanographic Data Center (KODC). http://kodc.nifs.go.kr/page?id=obs_04_01 Accessed 11 Apr 2016 OhSMKwonSJMoonIJLeeEISea level rise due to global warming in the northwestern Pacific and seas around the Korean PeninsulaJ Korean Soc Coast Ocean Eng20112323624710.9765/KSCOE.2011.23.3.236 ChowSHA study of the wind field in the planetary boundary layer of a moving tropical cyclone197158 MLTMGuidebook for the coastal erosion managements2010SeoulMinistry of Land, Transport and Maritime Affairs (MLTM)207 YoonJJNon-hydrostatic modeling of wave transformation and rip current circulation: a case study for Haeundae Beach, KoreaJ Coastal Res Special Issue20147218418910.2112/SI72-033.1 DoKYooJLeeHJDoJ-DJinJ-YField observations of spatial structure of hydrodynamics including waves and currents in the Haeundae coastJ Korean Soc Coast Ocean Eng20152722823710.9765/KSCOE.2015.27.4.228 HaKJJeongGYJangSRKimKYVariation of the sea surface height around the Korean Peninsula with the use of multi-satellite data (Topex/Poseidon, Jason-1, ERS, Envisat) and its association with sea surface temperatureKorean J Remote Sens200622519531 JJ Yoon (53_CR27) 2014; 72 RM Sorensen (53_CR24) 2010 VJ Cardone (53_CR1) 1994 HJ Lee (53_CR17) 2014; 49 RA Holman (53_CR9) 1993; 15 HJ Lee (53_CR16) 2012; 28 NG Plant (53_CR22) 2001; 106 RL Folk (53_CR7) 1954; 62 IPCC (53_CR10) 2013 PD Komar (53_CR14) 1998 H Lee (53_CR18) 2006; 22 53_CR15 LD Wright (53_CR25) 1984; 56 SH Chow (53_CR3) 1971 H Eom (53_CR6) 2014; 72 Y Choung (53_CR2) 2014; 72 D Jeon (53_CR11) 2008; 30 KJ Ha (53_CR8) 2006; 22 R F Davis (53_CR4) 2004 SY Kim (53_CR13) 2012; 17 JY Yang (53_CR26) 2006; 9 HS Lim (53_CR19) 2014; 72 SM Oh (53_CR21) 2011; 23 F Ribas (53_CR23) 2003 I Kim (53_CR12) 2014; 72 K Do (53_CR5) 2015; 27 MLTM (53_CR20) 2010
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Korea Oceanographic Data Center (KODC). http://kodc.nifs.go.kr/page?id=obs_04_01 Accessed 11 Apr 2016 – reference: MLTMGuidebook for the coastal erosion managements2010SeoulMinistry of Land, Transport and Maritime Affairs (MLTM)207 – reference: CardoneVJCoxATGreenwoodJATompsonEFUpgrade of tropical cyclone surface wind field model1994102 – reference: ChoungYYunHSDevelopment of a coastal surface monitoring system using high-resolution images taken in Haeundae, South KoreaJ Coastal Res Special Issue20147219019510.2112/SI72-034.1 – reference: YangJYChoiCUAn analysis of the coastal topography and land cover changes in the Haeundae BeachJ Korean Assoc Geogr Inf Stud200691101115 – reference: WrightLDShortADMorphodynamic variability of surf zones and beaches: a synthesisMar Geol1984569311810.1016/0025-3227(84)90008-2 – reference: JeonDRelative sea-level change around the Korean PeninsulaOcean Polar Res20083037337810.4217/OPR.2008.30.4.373 – reference: KimSYJeongJBLeeBKSeasonal variation of surface sediment distribution and transport pattern offshore Haeundae Beach areaJ Korean Soc Oceanogr2012171624 – reference: YoonJJNon-hydrostatic modeling of wave transformation and rip current circulation: a case study for Haeundae Beach, KoreaJ Coastal Res Special Issue20147218418910.2112/SI72-033.1 – reference: LimHSKimCSLeeHJShimJSKimSJParkKSChunIVariability of residual currents and waves in Haeundae using long-term observed AWAC dataJ Coastal Res Special Issue20147216617210.2112/SI72-030.1 – reference: OhSMKwonSJMoonIJLeeEISea level rise due to global warming in the northwestern Pacific and seas around the Korean PeninsulaJ Korean Soc Coast Ocean Eng20112323624710.9765/KSCOE.2011.23.3.236 – reference: RibasFOn the growth of nearshore sand bars as instability processes of equilibrium beach states2003242 – reference: IPCCClimate change 2013: The physical science basis2013CambridgeCambridge University Press129 – reference: LeeHWangYPChuYSJoHRSuspended sediment transport in the coastal area of Jinhae Bay- Nakdong estuary, Korea StraitJ Coastal Res2006221062106910.2112/04-0231.1 – reference: ChowSHA study of the wind field in the planetary boundary layer of a moving tropical cyclone197158 – reference: PlantNGFreilichMHHolmanRARole of morphologic feedback in surf zone sandbar responseJ Geophys Res200110697398910.1029/2000JC900144 – reference: HaKJJeongGYJangSRKimKYVariation of the sea surface height around the Korean Peninsula with the use of multi-satellite data (Topex/Poseidon, Jason-1, ERS, Envisat) and its association with sea surface temperatureKorean J Remote Sens200622519531 – reference: HolmanRASallengerAHSand bar generation: a discussion of the Duck experiment seriesJ Coastal Res Special Issue1993157692 – reference: DavisR FGeraldDMBeaches and coasts2004410 – reference: DoKYooJLeeHJDoJ-DJinJ-YField observations of spatial structure of hydrodynamics including waves and currents in the Haeundae coastJ Korean Soc Coast Ocean Eng20152722823710.9765/KSCOE.2015.27.4.228 – reference: KimILeeJLHwangJSLeeSLeeJVertical structure of rip current observed at Haeundae BeachJ Coastal Res Special Issue2014721510.2112/SI72-001.1 – reference: SorensenRMBasic coastal engineering2010New YorkSpringer324 – reference: LeeHJA review of sediment dynamical processes in the west coast of Korea, eastern Yellow SeaOcean Sci J201449859510.1007/s12601-014-0010-0 – volume: 106 start-page: 973 year: 2001 ident: 53_CR22 publication-title: J Geophys Res doi: 10.1029/2000JC900144 – volume: 28 start-page: 1177 year: 2012 ident: 53_CR16 publication-title: J Coastal Res doi: 10.2112/JCOASTRES-D-11-00138.1 – start-page: 242 volume-title: On the growth of nearshore sand bars as instability processes of equilibrium beach states year: 2003 ident: 53_CR23 – volume: 22 start-page: 1062 year: 2006 ident: 53_CR18 publication-title: J Coastal Res doi: 10.2112/04-0231.1 – start-page: 544 volume-title: Beach processes and sedimentation year: 1998 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SubjectTerms	Accretion Analogs Aquatic Pollution Beaches Coastal erosion Coastal zone management Cycles Earth and Environmental Science Earth Sciences Erosion Foreshore Hurricanes Marine & Freshwater Sciences Oceanography Offshore Sand Sand bars Seasons Significant wave height Significant waves Statistical methods Statistics Summer Surf Surf zone Typhoons Waste Water Technology Water Management Water Pollution Control Wave direction Wave height Wave statistics 해양학
Title	Haeundae Beach in Korea: Seasonal-to-decadal wave statistics and impulsive beach responses to typhoons
URI	https://link.springer.com/article/10.1007/s12601-016-0053-5 https://www.proquest.com/docview/1880808630 https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART002174148
Volume	51
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ispartofPNX	Ocean Science Journal, 2016, 51(4), , pp.681-694
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