[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.4490/algae.2013.28.4.365

Size determination of Ecklonia cava for successful transplantation onto artificial seaweed reef

Kim, Young Dae (Aquaculture Division, East Sea Regional Fisheries Research Institute, NFRDI)
Shim, Jung Min (Aquaculture Division, East Sea Regional Fisheries Research Institute, NFRDI)
Park, Mi Seon (Aquaculture Division, East Sea Regional Fisheries Research Institute, NFRDI)
Hong, Jung-Pyo (Korea Fisheries Resources Agency)
Yoo, Hyun Il (Seaweed Research Center, NFRDI)
Min, Byung Hwa (Aquaculture Division, East Sea Regional Fisheries Research Institute, NFRDI)
Jin, Hyung-Joo (Department of Marine Molecular Biotechnology, Gangneung-Wonju National University)
Yarish, Charles (Department of Ecology & Evolutionary Biology, University of Connecticut)
Kim, Jang K. (Department of Marine Sciences, University of Connecticut)

Publication Information

ALGAE / v.28, no.4, 2013 , pp. 365-369 More about this Journal

Abstract

The objective of this study was to determine the optimal blade size and timing to transplant seed-stock of Ecklonia cava Kjellman onto the reef structure. We used the modified artificial stepped reef structure. A total of 14 units (3.0 m length ${\times}$ 3.5 m width ${\times}$ 1.1 m height) were deployed 7-8 m deep under the water to examine the optimal blade size and timing to transplant seed-stock of E. cava onto the structures. Sporophytes of E. cava <1 cm in length were all died within 1 month of transplantation. The blades of 5-10 cm in length which were transplanted in March 2007 survived and grew well on the artificial reefs. Growth rates of 5-10 cm size class were higher than those of longer blade sporophytes (20-30 cm size class, transplanted in April) while the survival rates showed no difference between the classes of blade size. Both classes of 5-10 and 20-30 cm in length grew until July, and a reduction in size had occurred in September. These results indicate the importance of the blade size of E. cava and timing for successful transplantation of the seaweed on artificial reef structures.

Keywords

artificial reef; barren grounds; Ecklonia cava; seed-stock; transplantation;

Citations & Related Records

Times Cited By KSCI : 7 (Citation Analysis)

Reference
Cited By KSCI

1	Beak, J. M., Park, S. -W. & Hwang, E. K. 2009. Afforestation of a brown alga, Ecklonia cava Kjellman using a biodegradable polybutylene succinate. Korean J. Fish. Aquat. Sci. 42:523-526. 과학기술학회마을 DOI ScienceOn
2	Choi, C. G., Kim, H. G. & Sohn, C. H. 2002. Effect of transplantation of Ecklonia stolonifera Okamura with adhesive glue. J. Korean Fish. Soc. 35:608-613. 과학기술학회마을 DOI ScienceOn
3	Choi, C. G., Lee, H. W. & Hong, B. K. 2009. Marine algal flora and community structure in Dokdo, East Sea, Korea. Korean J. Fish. Aquat. Sci. 42:503-508. 과학기술학회마을 DOI ScienceOn
4	Chung, I. K., Oak, J. H., Lee, J. A., Shin, J. A., Kim, J. G. & Park, K. -S. 2013. Installing kelp forests/seaweed beds for mitigation and adaptation against global warming: Korean Project Overview. ICES J. Mar. Sci. Advance online publication. http://dx.doi.org/10.1093/icesjms/fss206. DOI ScienceOn
5	Graham, M. H. 2004. Effects of local deforestation on the diversity and structure of southern California giant kelp forest food webs. Ecosystems 7:341-357. DOI
6	Hayashida, F. 1977. On age and growth of brown alga, Ecklonia cava Kjellman, forming aquatic forest. Bull. Jpn. Soc. Sci. Fish. 43:1043-1051 (in Japanese). DOI
7	Hayashida, F. 1986. Synecological studies of a brown alga, Ecklonia cava Kjellman, forming aquatic forest. III. Structure of Ecklonia cava population. J. Fac. Mar. Sci.Technol. Tokai Univ. 22:159-169.
8	Hoffmann, W. A. & Poorter, H. 2002. Avoiding bias in calculations of relative growth rate. Ann. Bot. 90:37-42. DOI ScienceOn
9	Iwahashi, Y., Inaba, S., Fushimi, H., Sasaki, T. & Osuga, H. 1979. Ecological studies on Eisenia and Ecklonia in the coast of Izu Peninsula. IV. The distribution and characteristics of kelp stand. Bull. Shizuoka Pref. Fish. Exp. Stn. 13:75-82.
10	Jeong, W. -M., Oh, S. -H. & Lee, D. -Y. 2007. Abnormally high waves on the East Coast. J. Korean Soc. Coast. Ocean Eng. 19:295-302. 과학기술학회마을
11	Kain, J. M. 1979. A view of the genus Laminaria. Oceanogr. Mar. Biol. Ann. Rev. 17:101-161.
12	Kain, J. M. 1991. Cultivation of attached seaweeds. In Guiry, M. D. & Blunden, G. (Eds.) Seaweed Resources in Europe: Uses and Potential. John Wiley & Sons, Chichester, pp. 309-377.
13	Kang, R. -S. 2010. A review of destruction of seaweed habitats along the coast of the Korean Peninsula and its consequences. Bull. Fish. Res. Agency 32:25-31.
14	Kim, T. -R. & Lee, K. -H. 2008. Examinations on the wave hindcasting of the abnormal wells in the East Coast. J. Korean Soc. Ocean Eng. 22:13-19.
15	Kim, Y. D., Gong, Y. G., Jeon, C. Y., Song, H. I., Park, M. S., Lee, C. S., Yoo, H. I. & Kim, Y. H. 2010. Marine algae flora and community structure in Daejin on the mid-east coast of Korea. Korean J. Fish. Aquat. Sci. 43:532-539. DOI ScienceOn
16	Kim, Y. -D., Hong, J. -P., Song, H. -I., Jeon, C. -Y., Kim, S. -K., Son, Y. -S., Han, H. -K., Kim, D. -S., Kim, J. -H., Kim, M. -R., Gong, Y. -G. & Kim, D. -K. 2007. Growth and maturation of Laminaria japonica transplanted for seaforest construction on barren ground. J. Korean Fish. Soc. 40:323-331. 과학기술학회마을 DOI ScienceOn
17	Kim, Y. -D., Hong, J. -P., Song, H. -I., Park, M. S., Moon, T. S. & Yoo, H. I. 2012. Studies on technology for seaweed forest construction and transplanted Ecklonia cava growth for an artificial seaweed reef. J. Environ. Biol. 33:969-975.
18	Park, K. -A., Chung, J. Y. & Kim, K. 2004. Sea surface temperature fronts in the East (Japan) Sea and temporal variations. Geophys. Res. Lett. 31:L07304.
19	Kim, Y. -D., Song, H. -I., Hong, J. -P., Jeon, C. -Y., Kim, S. -K., Han, H. -K., Kim, D. -S. & Bang, J. -D. 2006. Growth and maturation of the brown seaweed Costaria costata transplanted for the wildstock enhancement. J. Life Sci. 16:1044-1051. 과학기술학회마을 DOI ScienceOn
20	Ling, S. D., Ibbott, S. & Sanderson, J. C. 2010. Recovery of canopy-forming macroalgae following removal of enigmatic grazing sea urchin Heliocidaris erythrogramma. J. Exp. Mar. Biol. Ecol. 395:135-146. DOI ScienceOn
21	Serisawa, Y., Aoki, M., Hirata, T., Bellgrove, A., Kurashima, A., Tsuchiya, Y., Sato, T., Ueda, H. & Yokohama, Y. 2003. Growth and survival rates of large-type sporophytes of Ecklonia cava transplanted to a growth environment with small-type sporophytes. J. Appl. Phycol. 15:311-318. DOI ScienceOn
22	Serisawa, Y. & Ohno, M. 1995. Succession of seaweed communities on artificial reefs in Tei, Toss Bay, Japan. Nippon Suisan Gakkaishi 61:854-859. DOI
23	Serisawa, Y., Yokohama, Y., Aruga, Y. & Tanaka, J. 2002. Growth of Ecklonia cava (Laminariales, Phaeophyta) sporophytes transplanted to a locality with different temperature conditions. Phycol. Res. 50:201-207. DOI ScienceOn
24	Yokohama, Y., Tanaka, J. & Chihara, M. 1987. Productivity of the Ecklonia cava community in a bay of Izu Peninsula on the Pacific coast of Japan. Bot. Mag. Tokyo 100:129-141. DOI

4	Xu Gao. (2017) ALGAE Growth, reproduction and recruitment of Silvetia siliquosa (Fucales, Phaeophyceae) transplants using polyethylene rope and natural rock methods / 32 (4) , 337
3	(2018) Ocean Science Journal Stipe Length as an Indicator of Reproductive Maturity in the Kelp Ecklonia cava / 53 (3) , 595
1	(2021) 환경생물 바다숲 조성 해조류의 생물량과 서식지적합지수 비교 / 39 (1) , 46
1	(2013) Marine Technology Society journal Prediction of Primary Physical Measures for Cost-Effective Management of Artificial Seaweed Reefs / 54 (1) , 25
4	(2013) Botanica marina Seaweed resources of Korea / 63 (4) , 395
2	(2020) 한국해양바이오학회지 대황(Eisenia bicyclis) 배우체와 아포체의 생장에 미치는 환경 인자의 영향 / 12 (2) , 115