[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5657/FAS.2011.0389

Macroalgal Community Structure on the Rocky Shores of Ongdo, Jusamdo, and Woejodo Islands of the Yellow Sea, Korea

Heo, Jin-Suk (Faculty of Biological Science and Institute for Basic Science, Wonkwang University)
Park, Seo-Kyoung (Faculty of Biological Science and Institute for Basic Science, Wonkwang University)
Yoo, Hyun-Il (Faculty of Biological Science and Institute for Basic Science, Wonkwang University)
Song, Ji-Na (Faculty of Biological Science and Institute for Basic Science, Wonkwang University)
Kim, Bo-Yeon (Faculty of Biological Science and Institute for Basic Science, Wonkwang University)
Choi, Han-Gil (Faculty of Biological Science and Institute for Basic Science, Wonkwang University)

Publication Information

Fisheries and Aquatic Sciences / v.14, no.4, 2011 , pp. 389-397 More about this Journal

Abstract

The benthic algal community structures of the seaweed biomass, vertical distribution of dominant seaweeds, and species composition were examined on the rocky shores of Ongdo, Jusamdo, and Woejodo Islands, Korea, in August 2006. A total of 68 seaweeds were identified, comprising 5 green, 11 brown, and 52 red algae from the three study sites. The number of species at Ongdo (32 species) was less than that at Jusamdo (45 species) and Woejodo (44 species). Jusamdo exhibited the maximum seaweed biomass (73.99 g dry $wt/m^2$ ), while the minimum value was found at Woejodo (36.90 g dry $wt/m^2$ ). On the three islands, coarsely branched forms were the most dominant functional group in terms of species number and biomass among benthic algal species. The dominant species were Gelidium amansii, Chondrus ocellatus, and Chrysymenia wrightii at Ongdo, Sargasum thunbergii, Ulva pertusa, and Sargassum fusiformis at Jusamdo, and U. pertusa, Undaria pinnatifida, and Corallina pilulifera at Woejodo. Perennial seaweeds were abundant at Ongdo (G. amansii and C. ocellatus) and Jusamdo (S. thunbergii and S. fusiformis), whereas the sheet form of U. pertusa was relatively abundant at Woejodo Island.

Keywords

Biomass; Community structure; Coverage; Functional form; Seaweed;

Citations & Related Records

Times Cited By KSCI : 7 (Citation Analysis)

Reference
Cited By KSCI

1	Yoo HI, Lee JH, Lee KH, Beak SH, Heo YB, Noh HS and Choi HG. 2007. Summer marine algal floras and community structures in Taean Peninsula, Korea. J Korean Fish Soc 40, 210-219.
2	Yoon MY and Boo SM. 1991. Flora and zonation of marine plants at the littoral area of Sapsido island on the Yellow sea of Korea. Korean J Phycol 6, 145-156.
3	Piazzi L, Pardi G, Balata D, Cecchi E and Cinelli F. 2002. Seasonal dynamics of a subtidal north-western Mediterranean macroalgal community in relation to depth and substrate inclination. Bot Mar 45, 243-252.
4	Prathep A. 2005. Spatial and temporal variations in diversity and percentage cover of macroalgae at Sirinart marine national park, Phuket Province, Thailand. Sci Asia 31, 225-233. DOI
5	Saito Y and Atobe S. 1970. Phytosociological study of intertidal marine algae I. Usujiri Benten-Jima, Hokkaido. Bull Fac Fish Hokkaido Univ 21, 37-69.
6	Schramm W. 1999. Factors influencing seaweed responses to eutrophication : some results from EU-project EUMAC. J Appl Phycol 11, 69-78. DOI ScienceOn
7	Steneck RS and Dethier MN. 1994. A functional group approach to the structure of algal-dominated communities. Oikos 69, 476-498. DOI ScienceOn
8	Terawaki T, Hasegawa H, Arai S and Ohno M. 2001. Management-free techniques for restoration of Eisenia and Ecklonia beds along the central Pacific coast of Japan. J Appl Phycol 13, 13-17. DOI ScienceOn
9	Vasquez JA and Guerra N. 1996. The use of seaweeds as bioindicators of natural and anthropogenic contaminants in northern Chile. Hydrobiologia 326/327, 327-333. DOI
10	Wan XQ, Park HH, Yoo HI and Choi HG. 2009. Temporal variations in seaweed biomass and coverage in Korean coasts: Ongdo, Chungnam. Fish Aqua Sci 12, 130-137.
11	Lee KH, Yoo HI and Choi HG. 2007. Seasonal community structure and vertical distribution of medicinal seaweeds at Kkotji in Taean Peninsula, Korea. Algae 22, 209-219. DOI ScienceOn
12	Wells E, Wilkionson M, Wood P and Scanlan C. 2007. The use of macroalgal species richness and composition on intertidal rocky seashores in the assessment of ecological quality under the European water framework directive. Mar Pollut Bull 55, 151-161. DOI ScienceOn
13	Weston DP. 1990. Quantitative examination of macrobenthic community changes along an organic enrichment gradient. Mar Ecol Prog Ser 61, 233-244. DOI
14	Lambshead PJD, Platt HM and Shaw KM. 1983. The detection of differences among assemblages of marine benthic species based on an assessment of dominance and diversity. J Nat Hist 17, 859-874. DOI ScienceOn
15	Lee WJ, Yoon HS and Boo SM. 1997. Marine algal community of Gyonggiman Islets on the West Sea of Korea. Algae 12, 139-144.
16	Lee YP and Kang SY. 2002. A Catalogue of the Seaweeds in Korea. Cheju National University Press, Cheju, Korea 662pp.
17	Littler MM and Littler DS. 1980. The evolution of thallus form and survival strategies in benthic marine macroalgae: field and laboratory tests of a functional form model. Am Nat 116, 25-44. DOI ScienceOn
18	Littler MM and Littler DS. 1984. Relationships between macroalgal functional form groups and substrata stability in a subtropical rocky-intertidal system. J Exp Mar Biol Ecol 74, 13-34. DOI ScienceOn
19	McNaughton SJ. 1967. Relationships among functional properties of California Grassland. Nature 216, 168-169.
20	Murray SN and Littler MM. 1984. Analysis of seaweed communities in a disturbed rocky intertidal environment near Whites Point, Los Angeles, Calif., U.S.A. Hydrobiologia 116/117, 374-382. DOI ScienceOn
21	Choi HG, Lee KH, Wan XQ, Yoo HI, Park HH, Kim JH and Chung IK. 2008. Temporal variations in seaweed biomass in Korean coasts: Woejodo and Jusamdo, Jeonbuk. Algae 23, 335-342. DOI ScienceOn
22	Padilla DK and Allen BJ. 2000. Paradigm lost : reconsidering functional form and group hypotheses in marine ecology. J Exp Mar Biol Ecol 250, 207-221. DOI ScienceOn
23	Park YS and Kim YH. 1990. Phytogeographical study on the summer marine algal distribution in western coast of Korea. Korean J Phycol 5, 39-50
24	Phillips JC, Kendrick GA and Lavery PS. 1997. A test of a functional group approach to detecting shifts in macroalgal communities along a disturbance gradient. Mar Ecol Prog Ser 153, 125-138. DOI
25	Diez I, Secilla A, Santolaria A and Gorostiaga JM. 1999. Phytobenthic intertidal community structure along an environmental pollution gradient. Mar Pollut Bull 38, 463-472. DOI ScienceOn
26	Eklof JS, de la Torre Castro M, Adelskold L, Jiddawi NS and Kautsky N. 2005. Differences in macrofaunal and seagrass assemblages in seagrass beds with and without seaweed farms. Estuar Coast Shelf Sci 63, 385-396. DOI ScienceOn
27	Gorostiaga JM and Diez I. 1996. Changes in the sublittoral benthic marine marcroalgae in the polluted area of Abra de Bilbao and proximal coast (Northern Spain). Mar Ecol Prog Ser 130, 157-167. DOI
28	Hay ME. 1994. Species as 'noise' in community ecology: do seaweeds block our view of the kelp forest? Trends Ecol Evol 9, 414-416. DOI ScienceOn
29	Hwang EK, Park CS, Sohn CH and Koh NP. 1996. Analysis of functional form groups in macroalgal community of Yonggwang vicinity, western coast of Korea. J Korean Fish Soc 29, 97-106.
30	Johnston CS. 1969. The ecological distribution and primary production of macrophytic marine algae in the Eastern Canaries. Int Rev Gesamten Hydrobiol 54, 473-490. DOI
31	Juul-Pedersen T, Michel C and Gosselin M. 2008. Influence of the Mackenzie River plume on the sinking export of particulate material on the shelf. J Mar Syst 74, 810-824. DOI ScienceOn
32	Kim BY, Kim WS and Choi HG. 2010. Seasonal variability of seaweed biomass along the vertical shore gradients of Nachido and Odo islands, the Yellow Sea, Korea. Fish Aquat Sci 13, 324-331. DOI ScienceOn
33	Kim YH, Yoon HJ and Yoo JS. 1995. Species composition and biomass of marine algal community on the mid-western coast of Korea. J Plant Biol 38, 389-398.
34	Bernecker A and Wehrtmann IS. 2009. New records of benthic marine algae and cyanobacteria for Costa Rica, and a comparison with other Central American countries. Helgol Mar Res 63, 219-229. DOI ScienceOn
35	Arevalo R, Pinedo S and Ballesteros E. 2007. Changes in the composition and structure of Mediterranean rocky-shore communities following a gradient of nutrient enrichment: descriptive study and test of proposed methods to assess water quality regarding macroalgae. Mar Pollut Bull 55, 104-113. DOI ScienceOn
36	Baek JM, Hwang MS, Lee JW, Lee WJ and Kim JI. 2007. The macroalgal community of Bagryoungdo Island in Korea. Algae 22, 117-123. DOI ScienceOn
37	Ballesteros E, Torras X, Pinedo S, Garcia M, Mangialajo L and de Torres M. 2007. A new methodology based on littoral community cartography dominated by macroalgae for the implementation of the European Water Framework Directive. Mar Pollut Bull 55, 172-180. DOI ScienceOn
38	Choi CG and Huh SH. 2008. Composition of marine algal community at the intertidal zone in Gwangyang Bay, South Sea, Korea. J Korean Fish Soc 41, 201-207.

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