5 results on '"Han Jun Woo"'
Search Results
2. Rare earth element fingerprints in Korean coastal bay sediments: Association with provenance discrimination
- Author
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Ha Gi Hwang, Jun-Ho Lee, Seok Jang, Jin Hyung Cho, Jeongwon Kang, Han Jun Woo, Kap-Sik Jeong, and Hoi-Soo Jung
- Subjects
Shore ,Wet season ,geography ,Provenance ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,biology ,Rare-earth element ,Continental crust ,Sediment ,010502 geochemistry & geophysics ,Oceanography ,biology.organism_classification ,01 natural sciences ,Geum ,Bay ,Geology ,0105 earth and related environmental sciences - Abstract
Rare earth elements (REEs: La-Lu) in surface sediments collected from the mouth and middle tidal flats of Gomso Bay, South Korea, in August 2011 and May 2012 were analyzed to investigate the fine-grained sediment provenance. The upper continental crust (UCC)-normalized light REEs (LREEs: La to Nd) were more enriched than the middle REEs (MREEs: Sm to Dy) and heavy REEs (HREEs: Ho to Lu), resulting in large (La/Yb)UCC (1.9 ± 0.4) to (Gd/Yb)UCC (1.4 ± 0.2) ratios. The monthly (La/Yb)UCC values differed between the mouth and middle tidal flats due to deposition of fine-grained sediments that originated from distant rivers (the Geum and Yeongsan) and the Jujin Stream, located on the southern shore of the inner bay. We observed relative reductions in the (La/Yb)UCC value and REE content in the sediments from the mouth of the bay compared with those from Jujin Stream sediments. Confined to the middle tidal flat around the KH Line of Jujin Stream, the sediments, most enriched in LREEs but depleted in Eu, were distributed in August as strong Jujin Stream runs. Here, we suggest that an increase in LREE/HREE and decrease in MREE/LREE ratios can be used as a proxy to identify the Jujin Stream provenance in mixed riverine sediments and to trace Jujin Stream sediments within the Gomso Bay tidal flat, especially in the summer rainy season.
- Published
- 2016
3. Holocene depositional patterns of the subaqueous Nakdong Delta on the Korea Strait with respect to sequence stratigraphy
- Author
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Dong-Hyeok Shin, Han Jun Woo, Dong-Lim Choi, and Yong-Kuk Lee
- Subjects
010504 meteorology & atmospheric sciences ,010502 geochemistry & geophysics ,Oceanography ,01 natural sciences ,Sedimentary depositional environment ,Paleontology ,Sequence (geology) ,Sequence stratigraphy ,Transgressive ,Geomorphology ,Sea level ,Holocene ,Geology ,0105 earth and related environmental sciences ,Retrogradation ,Marine transgression - Abstract
A sequence stratigraphic analysis was conducted using high-resolution ‘Chirp’ seismic profiles and a long core data off the Nakdong River where Holocene deltaic deposition prevails in the Korea Strait. The depositional sequence comprises a group of transgressive and highstand systems tracts, intercalated with their bounding surfaces of maximum flooding surfaces, above a sequence boundary. It is formed by an erosional process within an incised valley, indicating the Nakdong River at the lowstand of sea level. The transgressive systems tract consists of the lower and upper depositional units, bounded by a ravinement surface, formed during the early Holocene when sea-level rose between 12.0 and 6.0 ka BP. The lower depositional unit mostly occurs in the incised valley area, comprising fluvio-estuarine sediments, whereas the upper one nearshore environments consist of sand sheet and ridges. The overall stacking pattern of these sequences demonstrates retrogradation. During the late Holocene sea-level highstand of around 6.0 ka BP, the highstand systems tract overlying the maximum flooding surface consists of the deltaic sequence, formed as a seaward sigmoid progradational pattern. The subaqueous Nakdong delta system has evolved to depositional units of the retrogradational transgressive and then the progradational highstand systems tract over a sequence boundary during the Holocene transgression.
- Published
- 2016
4. Tidal channel distribution in relation to surface sedimentary facies based on remotely sensed data
- Author
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Han Jun Woo, Seok Jang, Jinah Eom, Jong-Kuk Choi, Joo-Hyung Ryu, and Joong-Sun Won
- Subjects
Sediment ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Fractal analysis ,Fractal dimension ,Physics::Geophysics ,Aerial photography ,Facies ,General Earth and Planetary Sciences ,Astrophysics::Earth and Planetary Astrophysics ,Geomorphology ,Bay ,Astrophysics::Galaxy Astrophysics ,Beach morphodynamics ,Geology ,Computer Science::Information Theory ,General Environmental Science ,Communication channel - Abstract
Tidal channel networks are important factors influencing the morphodynamics of tidal flats and surface sedimentary facies. Here we investigate the relationship between channel distribution and sedimentary facies in Geunso Bay tidal flat, Korea. The tidal channel networks were extracted from a high spatial resolution aerial photograph, and for each sedimentary facies the pattern of tidal channel distribution was compared in terms of fractal analysis, channel density, and distance from the channel. The tidal channels in each sediment facies had relatively constant meandering patterns, but the density and complexity were distinguishable. The second fractal dimension was 1.87 in the mud flat, 1.41 in the mixed flat, and about 1.30 in the sand flat. The channel density was 0.036–0.06 m/m2 in the mud flat and 0–0.024 m/m2 in the mixed and sand flat areas. This implies that the tidal channels in the mud flat area represent a complex and dendritic pattern with high density compared to those in the mixed or sand flat areas. The results were used to test the applicability of adjusting sedimentary facies classification generated from interpolation of survey data. We quantitatively estimated the pattern of tidal channel distribution for each sedimentary facies based on a high spatial resolution aerial photograph. We suggest that tidal channel network features can be useful to surface sedimentary facies classification in tidal flats.
- Published
- 2012
5. Experimental restoration of a salt marsh with some comments on ecological restoration of coastal vegetated ecosystems in Korea
- Author
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Bon Joo Koo, Jong Geel Je, and Han Jun Woo
- Subjects
Hydrology ,geography ,geography.geographical_feature_category ,Marsh ,Benthic zone ,Salt marsh ,Environmental science ,Sediment ,Wetland ,Ecosystem ,Vegetation ,Oceanography ,Restoration ecology - Abstract
Since the 1980s, the coastal wetlands in Korea have been rapidly degraded and destroyed mainly due to reclamation and landfills for coastal development. In order to recover damaged coastal environments and to develop wetland restoration technologies, a 4-year study on ecological the restoration of coastal vegetated ecosystems was started in 1998. As one of a series of studies, a small-scale experiment on salt marsh restoration was carried out from April 2000 to August 2001. The experiment was designed to find effective means of ecological restoration through a comparison of the changes in environmental components and species structure between two different experimental plots created using sediment fences, one with and one without small canals. Temporal variation in surface elevation, sedimentary facies, and benthic species were measured seasonally in each plot and in the adjacent natural reference sites. Monthly exposure occurred from 330 cm to mean sea level, which represents the critical tidal level (CTL) at which salt marsh plants colonize. Vegetation, especially Suaeda japonica, colonized the site the following spring and recovered to a similar extent in the natural marshes 16 months later. The sedimentary results indicated that the sediment fences had effects on particle size and sediment accumulation, especially in the plot with small canals. This experiment also showed that tidal height, especially that exceeding the CTL, is an important factor in the recovery of the benthic fauna of salt marshes. From these results, we suggested that designs for the restoration of salt marsh ecosystems must consider the inclusion of a tidal height exceeding CTL, as this may allow reconstruction of the previous natural ecosystem without artificial transplanting.
- Published
- 2011
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