Browse > Article
http://dx.doi.org/10.7850/jkso.2012.17.1.001

Effects of Deep Sea Water on the Liberation of Monospore and Growth in three species Porphyra (Rhodophyta, Bangiales)  

Kim, Seung-Oh (Aquatic Plant Variety Center, NFRDI)
Kim, Nam-Gil (Department of Marine Biology and Aquaculture/Institute of Marine Industry, Gyeongsang National University)
Publication Information
The Sea:JOURNAL OF THE KOREAN SOCIETY OF OCEANOGRAPHY / v.17, no.1, 2012 , pp. 1-8 More about this Journal
Abstract
The objective of the present study was carried out to clarify the effects of deep sea water on the growth and maturation of $Porphyra$ (Rhodophyta, Bangiales). Foliose thalli for indoor culture were collected from Yeongok ($P.$ $okamurae$) in Gangwon Prefecture, Tongyeong ($P.$ $suborbiculata$ f. $latifolia$) and Namhae ($P.$ $yezoensis$ f. $narawaensis$) in Gyongnam Prefecture respectively. Monospores were cultured at five temperatures (5, 10, 15, 20 and $25^{\circ}C$) with a photon irradiance of $80{\mu}m^{-2}s^{-1}$ under photoperiods of 14L:10D and 10L:14D in surface, deep and mixed seawater in respectively. The fast growth of foliose thalli were observed in $P.$ $suborbiculata$ f. $latifolia$ cultured at deep seawater under $15^{\circ}C$ and 10L:14D. In three species, the optimum growth occurred at 10 and $15^{\circ}C$ under deep and mixed seawater and short day-length. In general, monospores from the cultured thalli were liberated within three weeks after incubation under $10-25^{\circ}C$ and both photoperiods. From the result of this study, deep seawater is considered that the natural species of the genus $Porphyra$ can be useful for the development as the new cultivars.
Keywords
$P.$ $okamurae$; P. $suborbiculata$ f. $latifolia$; $P.$ $yezoensis$ f. $narawaensis$; Deep seawater; Growth; Monospore;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 강제원, 고남표, 1977. 해조양식. 태화출판사 부산 pp. 294.
2 국립수산과학원. 2003. http://www.nfrda.re.kr/korea/tech/areadata/area-stat/statyy3_areastat.
3 김남길, 능등곡정호, 1997. 둥근돌김(Porphyra suborbiculata Kjellman)의 실내배양. 1997년 추계한국수산학회 발표논문 요약집, p. 132−133.
4 김병기, 김형배, 명정구, 김종만, 2001. 해양 심층수를 이용한 종묘생산 및 양성. 제2회 동해심층수자원의 다목적 개발을 위한 제3회 동해심층수 개발.이용 심포지움 요지집, 고성, pp. 33−34.
5 김병기, 2004a. 고성 해양심층수 개발해역의 생물환경 및 방류수재활용 방안. 동해심층수자원의 다목적 개발을 위한 제3회 동해심층수 개발.이용심포지움 요지집, 서울, pp. 44−53.
6 김현주, 2004b. 고성 해양심층수 개발해역의 생물환경 및 방류수 재활용 방안. 제3회 동해심층수자원의 다목적 개발을 위한 제3회 동해심층수 개발.이용 심포지움 요지집, 서울, pp. 54−65
7 명정구, 박용주, 박철원, 김종만, 2001. 해양 심층수를 이용한 한해성 바다목장화. 제2회 동해심층수자원의 다목적 개발을 위한 제3회 동해심층수 개발.이용 심포지움 요지집, 고성, pp. 45−49.
8 이 주, 문영봉, 전임기, 2001. 심층수를 이용한 중간축양 및 유통 방안. 제2회 동해심층수자원의 다목적 개발을 위한 제3회 동해 심층수 개발.이용 심포지움 요지집, 고성, pp. 35−44.
9 이종호, 한성빈, 이강호. 1974. 건해태(김)의 아연 및 마그네슘 함량과 품질과의 관계. 한수지. 7: 63−68.
10 장학봉, 2008. 해양심층수 자원의 산업화. 한국해양수산개발원 해양수산동향, 1285: 1−7.
11 한국해양연구원, 2001. 해양심층수개발의 환경영향 조사연구(1), 145 pp.
12 한국해양연구원, 2003. 해양심층수개발의 환경영향 조사연구(2), 157 pp.
13 한국해양연구원, 2004. 해양심층수개발의 환경영향 조사연구(3), 101 pp.
14 岡 直宏, 平岡雅規, 西島敏隆, 2002. ワカメの配偶體成熟誘導と室戶海洋深層水を用いた屋外養殖. 第6回 海洋深層水硏究會全國大會講演要旨集, p. 51-52.
15 岡 直宏, 平岡雅規, 西島敏隆, 四ツ倉典滋, 2003. 室戶海洋深層水と表層水を用いたホソメコンブ大量培養藻成分比較. 第7回 海洋深層水硏究會全國大會 講演要旨集, p. 34−35.
16 大野正夫, 2006. 海洋深層水による海藻の大量培養システムの開發. 産學官連携ジャ一ナル, 2: 25-27.
17 藤田大介, 2002. 海洋深層水と磯燒け硏究. 海苔と海藻. 64: 27-32.
18 明神慶一, 山中弘雄, 田島健司, 1991. 深層水中の海洋生物の成長. 深層水國際プオ一ラム發表要旨. pp. 101-102.
19 武居 薰, 宮澤 正, 1959. アサクサノリの施肥に關する硏究-I. 主として無機態窒素の吸收について. 水産講習所報. 279: 20-28.
20 山口光明, 田島健司, 山中弘雄, 岡村雄吾, 1994. 海洋深層水による大型海藻類の培養. 月刊海洋, 285: 156-158.
21 西島敏隆, 木苛 豊, 深見公雄, 足立眞佐雄, 2000. 海洋深層水を用いた藻類の效率的培養法について. 4回 海洋深層水硏究會全國大會講演要旨集, p. 31.
22 船野 降, 1986. 鹿部沖におけるホソメコンブとマコンブ, リシリコンブ, オ二コンブとの養殖による比較. 北水試報報, 28: 46-61.
23 阿部祐子, 荻田淑彦, 森山貴光, 內村眞之, 2003. 室戶海洋深層水の放流による大型藻類への影響の檢討. 第7回 海洋深層水利用硏究會 2003 燒津大會. 講演要旨集. p. 37.
24 阿部祐子, 荻田淑彦, 川北浩久, 浜田英之, 2004. 室戶海洋深層水を用いた海藻培養に關する硏究. 第8回 海洋深層水利用硏究會2004 入善大會. 講演要旨集. p. 56.
25 中島敏光, 1988. 海産珪藻 Skeletonema costatumの增殖に及ぽす海洋深層水の影響. 日本プランクトン學會報, 35: 45-55.
26 中島敏光, 1992. 海養深層水中での珪藻 Skeletonema costatumの誘導期を解消する諸因子 I. 有機物質による解消. 日本プランクトン學會報, 38: 93-104.
27 中島敏光, 2000. 21世紀の資源/海洋深層水を利用する. 微細藻類.海藻類の培養. 養殖, 7: 74-79.
28 丸山 功, 松林恒夫, 安藤洋太郞, 1994. 深層水を利用した微細藻類の大量培養. 月刊海洋, 26: 145-149.
29 Fujita, D., 2001. Algal recovery on coralline-covered cobbles collected from an urchin-dominated barren ground in flowing deepsea water. Deep Ocean Water Res., 2: 57-64.
30 黑木宗尙, 1961. 養殖アマノリの種類とその生活史(アマノリ類の生活史の硏究 2報). 東北水硏硏報, 18: 1-115.
31 Fujita, D., 2003. Algal recovery on coralline-covered cobbles collected from an urchin-dominated barren ground in flowing deepsea water II. Deep Ocean Water Res., 4: 1-9.
32 Kim N.G., 1999. Culture studies of Porphyra dentata and P. pseudolinearis (Bangiales, Rhodophyta), two dioecious species from Korea. Hydrobiologia. 398/399: 127-135.   DOI   ScienceOn
33 Kim, N.G., 2000. Effect of temperature, photon flux density and photoperiod on the life history of Porphyra suborbiculata Kjellman f. latifolia Tanaka (Bangiales, Rhodophyta). Aquaculture, 13: 295- 301.   과학기술학회마을
34 Kim, N.G., 2002. Geographical distribution, physiological characteristics and life history of the genus Porphyra (Bangiales, Rhodophyta) from Korea. Ph.D. Thesis, Tokyo University of Fisheries, Tokyo, 268 pp.
35 Kim, N.G. and M. Notoya, 2003. Life history of Porphyra koreana (Bangiales, Rhodophyta) from Korea in culture. Proc. of the 17th Intl. Seaweed Symp. Oxford University Press. pp. 435-442.
36 Matsumura, W. and D. Fujita, 2002. Proposal of a self-sustainable abalone culture system based on kelp intercalary growth in deepsea water. Deep Ocean Water Res., 3: 53-63.
37 Ohno, M, M. Yano, M. Hiraoka, N. Oka and M. Taniguchi, 2001. Tank culture of Echeuma serra and Meristotheca papulosa using with deep sea water. Bull. Mar. Sci. Fish. Kochi. Univ., 20: 35-40.
38 Quinby-Hunt, M.S., 1979. Comparison of nutrient data from four potential OTEC sites. Report LBL-9052, Lawrence Berkeley Lab., Univ. Calif., Berkeley, p. 6
39 Roels, O.A., K.C. Haines and J.B. Sunderlin, 1975. The potential yield of artificial upwelling mariculture. 10th European Symposium on Marine Biology. Ostend, Belgium, 1: 381-390.
40 Quinby-Hunt, M.S., P. Wilde and A.T. Dengler, 1986. Potential environmental impacts of open-cycle ocean thermal energy conversion. Environ. Impact Assess. Rev, Elsevier Science Pub. Co., Inc., New York, pp. 77-93.
41 Ryther, J.H., J.A. DeBoer and B.E. Lapointe, 1979. Cultivation of seeweeds for hydrocolloids, waste treatment and biomass for energy conversion. In: Proceedings of the Ninth International Seaweed Symposium, edited by Jensen, A. and J.R. Stein, Santa Barbara, pp. 1-16.
42 Takahashi, M.M., 2001a. What is "deep ocean water"?. Aquabiology, 135: 326-331.
43 Takahashi, M.M., 2001b. Cleanliness of deep ocean water. Aquabiology, 135: 350-357.
44 Takano, K., 2001. Physical properties of deep sea waters. Aquabiology, 135: 337-342.
45 Tsunogai, S., 2001. Chemical nature of the oceanic deep water. Aquabiology. 135: 343-349.