• Journal of the Korean Society of Marine Environment & Safety
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• v.20 no.6
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• pp.609-618
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• 2014

We have been studied for geographic distribution, dominance and inhabitation characteristics of marine algal species at intertidal zones of Geojin in the northern part of east coast of Korea, Jukbyeon in the middle part and Gampo in the southern part in May and August 2014. For the geographic distribution, the three areas (Geojin, Jukbyeon and Gampo) were a characteristic of the temperate region. Geojin dominated with Ulva pertusa and Chaetomorpha moniligera, Jukbyeon dominated with C. moniligera and Chondria crassicaulis, Gampo dominated with Sargassum thunbergii, U. pertusa and Ectocarpus species. C/P, R/P and (R+C)/P, which can represent the marine algal flora, were 0.85, 2.10, 2.94 in Geojin, 0.58, 3.15, 3.73 in Jukbyeon and 0.80, 3.91, 4.71 in Gampo. As a result of cluster analysis, Those regions were divided in two groups, which were a group A of Geojin and group B of Jukbyeon and Gampo. This result was well matched with Jukbyeon and Gampo shared their temperate region character in the geographic distribution study.

• ALGAE
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• v.20 no.3
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• pp.239-249
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• 2005

Some marine coenocytic green algae could form protoplasts from the extruded protoplasm in seawater. The dissociated cell components of the coenocytic protoplasm could be reunited into live cells and, hence, the formation of new species by mixing protoplasms from different coenocytic cells has been predicted. Our results showed that an incompatibility barrier was present during protoplast formation in coenocytic algae to exclude foreign inorganic particles or alien cell components. No inorganic particles or alien cell components were incorporated into protoplast formed spontaneously in seawater. Even when the inorganic particles or alien cell and/or cell component were incorporated into protoplast in some experimental condition, they were expelled from the protoplast or degenerated within several days. A species-specific cytotoxicity was observed during protoplast hybridization between the protoplasms of Bryopsis spp. and Microdictyon umbilicatum. The cell sap of M. umbilicatum could destroy the cell components of Bryopsis spp., but had no effect on Chaetomorpha moniligera. Species C. moniligera and Bryopsis did not affect protoplast generation of either species. The wound-induced protoplast formation in vitro might have evolved in some coenocytic algae as a dispersal method, and the incompatibility barrier to alien particles or cell and/or cell component could serve as a protective mechanism for successful propagation.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.42 no.6
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• pp.664-673
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• 2009

An intertidal marine benthic algal vegetation and vertical distribution at Youngil Bay, the eastern coast of Korea was investigated to clarify the community structure and vertical distribution by quadrat method from February 2003 to January 2009. Marine algae identified from the area were 152 species; 25 green, 38 brown and 89 red algae. The dominant species were Ulva spp., Ulva pertusa, Chaetomorpha moniligera, Undaria pinnatifida, Sargassum horneri, S. miyabei, S. thunbergii, Gelidium amansii, Corallina pilulifera, Grateloupia elliptica, G. filicina, Prionitis cornea, Chondrus ocellatus, Chondracanthus intermedia, Acrosorium polyneurum, Chondria crassicaulis, Polysiphonia morrowii and Symphyocladia latiuscula at study sites. The vertical distribution of intertidal marine algae was divided into three distinct zones. They were characterized by Porphyra spp. and Ulva spp. at the upper, Ulva spp. and Ulva pertusa at the middle, and Sargassum spp., Gelidium amansii, Grateloupia spp., Chondrus ocellatus and Chondria crassicaulis at the lower zones, respectively. Functional form group analysis showed that coarsely branched forms comprised 44.7% of the algal community, whereas thick leathery forms, sheet forms and filamentous forms comprised 6.6-25.7%. R/P, C/P and (R+C)/P values were 2.34, 0.66 and 3.00, respectively.

• Journal of the Korean Society of Food Science and Nutrition
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• v.35 no.1
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• pp.109-114
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• 2006

For the purpose of oligosaccharide production from alginate, the main component in cell walls of brown algae, the alginate degrading bacteria have been screened from the seaweeds and soil. Among the isolated 69 strains, one strain showing the highest degrading activity was selected and identified as Bacillus licheniformis strain. The adequate sodium alginate concentration for growing the Bacillus licheniformis was $2.0\%$. The effective nitrogen source is nutrient broth $(0.1\%)$, and optimum initial pH, NaCl concentration, temperature and incubation time to produce the alginate degrading enzyme were 7.5, $2\%,\;30{\pm}2^{\circ}C$, and 144 hrs, respectively.