Flood Risk Assessment for Coastal Cities Considering Sea Level Rise due to Climate Change

박, 윤경; 정, 병순; 김, 이호

doi:10.9798/kosham.2020.20.6.323

Cited by 6 publications

(2 citation statements)

References 6 publications

(6 reference statements)

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“…As the area undergoing the most rapid sea-level rise in the nation, Jeju has recorded a rate of 4.26 mm/year (KHOA, 2019). This is double the global average of sealevel rise across the same period, which is around 2mm/year (Yoon and Kim, 2012;Jung, 2014;Park et al, 2020c).…”

Section: Geoheritage Managementmentioning

confidence: 87%

Korean geoheritage: the volcanic landforms of the Jeju Island UNESCO Global Geopark

Jeon,

Ki,

Southcott

2024

Episodes

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Jeju Island, Korea, was formed through volcanic activity from approximately 1.8 million to 1,000 years ago. The island was designated a Global Geopark in 2010 in recognition of its diverse geoheritage. As part of a special edition for the International Geological Congress 2024, this article shares the latest scholarship on Jeju's volcanic geoheritage sites to enhance public understanding of the island's geoheritage as earlier misconceptions continue to spread through books, websites, and information boards, etc. Despite long being interpreted as a typical shield volcano, for example, Mt. Hallasan has been recategorized as a polygenetic and composite volcano that formed through Strombolian eruptions, lava effusions, and magma intrusions from 200,000 to 17,000 years ago. Moreover, although once interpreted as a single scoria cone that formed a thousand years ago, Biyangdo Island (Biyangbong) formed through subaerial volcanic eruptions 26,000 years ago that produced both a scoria cone and a spatter cone. This research is presented with the latest research on other volcano-related Jeju Island Global Geopark geosites, including Suwolbong Tuff Cone and Seongsan Ilchulbong Tuff Ring. Alongside regular research and monitoring, public awareness is essential to ensure sustainable protection due to increasing rockfalls caused by rising sea levels at coastal geosites and climate changeexacerbated freeze-thaw weathering at inland sites on Mt. Hallasan.

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Section: Geoheritage Managementmentioning

confidence: 87%

Korean geoheritage: the volcanic landforms of the Jeju Island UNESCO Global Geopark

Jeon,

Ki,

Southcott

2024

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“…It is considered to be related to the recent trend of increasing significant waves along the eastern coast of Korea during winter [19] (Figure A1). In addition, sea levels along the eastern coast of Korea are expected to rise by approximately 0.58 cm/year from 2005 to 2040 [28], and the frequency of high waves is simultaneously increasing [19,20]. These phenomena are significant causes of frequent wave overtopping and the consequent changes in the salinity of rivers.…”

Section: Discussionmentioning

confidence: 99%

Influence of Salinity on the Survival Rate of Fertilized Chum Salmon (Oncorhynchus keta) Eggs

Park,

Kim,

Kim

et al. 2023

JMSE

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Chum salmon (Oncorhynchus keta) exhibit a remarkable ability to adapt to changes in salinity during their life cycle. However, the fertilized egg stages are sensitive to salinity, affecting ontogeny and hatching. This study investigated the effect of salinity (0, 1, 3, and 5 PSU) on the survival of two developmental stages (<1 day after fertilization and <1 day after the eyed-egg stage) of fertilized eggs. Based on the experimental results, we assessed the spawning ground environment using the in situ salinity data of the Namdae River from 1997 to 2002, where the largest number of salmon in Korea migrate to spawn. Survival of the <1-day-old fertilized eggs decreased sharply at 3 PSU or more, and all eggs died at 5 PSU. Hatching of the eyed-egg stage occurred under all environmental conditions. After 2010, the salinity of the layer of water in contact with the sediment in the lower reaches of the river increased (>6.9 PSU) with the frequency of high waves. Overall, the function of the lower river in spawning and hatching is weakening. This study enhances our understanding of the effects of climate change, including increased wave activity, on salmon spawning grounds.

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Analysis of Short-term and Long-term Effects of Sea Level Rise on Coastal Cities : Case of Myeongji City, Busan

Hwang¹,

Yoo²

2022

jkpa

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Flood Risk Assessment for Coastal Cities Considering Sea Level Rise due to Climate Change

Cited by 6 publications

References 6 publications

Korean geoheritage: the volcanic landforms of the Jeju Island UNESCO Global Geopark

Korean geoheritage: the volcanic landforms of the Jeju Island UNESCO Global Geopark

Influence of Salinity on the Survival Rate of Fertilized Chum Salmon (Oncorhynchus keta) Eggs

Analysis of Short-term and Long-term Effects of Sea Level Rise on Coastal Cities : Case of Myeongji City, Busan

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