바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

logo

메뉴

이원면 굴, Crassostrea gigas 양식어장의 월별 식물플랑크톤 종조성 및 수질환경 변화

Monthly Variation of Phytoplankton Composition and Water quality in Cupped Oyster Crassostrea gigas Culture Area in Iwon, Korea

Abstract

Phytoplankton species composition and ecological index (diversity, evenness, richness and dominance) were analysed from April 2013 to March 2014 at 10 station of cupped oyster, Crassostrea gigas culture area in Iwon coast, Korea. Seasonal and positional variation of phytoplankton standing crops, biomass, dominant species and water quality were distinctively different according to occasionally inflow of Iwon dam reservoired water. The composition of phytoplankton species were Bacillariophyceae 98, Dinophycease 22, Chlorophycease 13, Cyanophyceae 8, Silicofalgellate 4, Euglenophyceae 2, Cryptophyceae 1 species. The most dominant species was Bacillariophyceae as 64.0%. The highest biomass of phytoplankton recorded in September as 40,910 × 103 cell/L at the station 1, near from inland water inflow area. Ecological indices (diversity, richness, evenness, and dominance index), used for structural change of phytoplankton community and water quality (temperature, dissolved oxygen, salinity) showed difference of spatiotemporal property also.

keywords
phytoplankton, composition, oyster, water quality, Iwon

참고문헌

1.

Cho, Y.S., Lee, W.C., Hong, S.J., Kim, H.C., Kim, J.B. and Park, J.H. (2012) Estimation of stocking density using habitat suibility index and ecological indicator for oyster farms in Geoje-Hansan Bay. Journal of Korean Society of Marine Environment & Safety, 18(3): 185-191.

2.

Domingues, R.B. and Galvão H. (2007) Phytoplankton and environmental variability in a dam regulated temperate estuary. Hydrobilogia, 586: 117-134.

3.

Dortch, Q., Rabalais N.N., Turner E. and Qureshi N.A. (2001) Impacts of changing Si/N ratios and phytoplankton species composition. Coastal and Estuarine Studies, 37-48.

4.

Kang, Y.S., Choi, H.C., Noh, J.H., Choi, J.K. and Jeon, I.S. (2006) Seasonal variation of phytoplankton community structure in Northeastern coastal waters off the Korean peninsula. Algae, 21(1): 83-90.

5.

Kim, B.C., Park, J.H., Hwang, G.S., Jun, M.S. and Choi, K.S. (2001) Eutrophication of reservoirs in South Korea. Limnology, 2: 223-329.

6.

Kocum, E., Underwood, G.J. and Nedwell, D.B. (2002) Simultaneous measurement of phytoplankton primary production, nutrient and light availability along a turbid, eutrophic UK east coast estuary (the Colne Estuary). Marine Ecology Progress Series, 231: 1–12.

7.

Lim, H.J., Back, S.H., Lim, M.S., Choi, E.H. and Kim, S.K. (2012) Regional variations in Pacific oyster, Crassostrea gigas growth and number of larvae occurrence and spat settlement along the west coast, Korea. Korea J. Malacol., 28(3): 259-267.

8.

Park, J.S., Kim, H.C., Choi, W.J., Lee, W.C. and Park, C.K., (2002a) Estimating the carring capacity of a coastal bay for oyster culture. Ⅰ. Estimating a food supply to oyster using an eco-hydrodyamic model in Geoje-Hansan bay. J. Korean. Fish. Soc., 35(4): 395-407.

9.

Park, J.S., Kim, H.C., Choi, W.J., Lee, W.C., Kim, D.M., Koo, J.H. and Park, C.K. (2002b) Estimation the carring capacity of a coastal bay for oyster culture. Ⅱ. The carring capacity of Geoje-Hansan Bay. J. Korean. Fish. Soc., 35(4): 408-416.

10.

Polat, S., Akiz A. and Piner M.P., (2005) Daily variations of coastal phytoplankton assemblages in summer conditions of the northeastern Mediterranean (Bay of Iskenderun). Pakistan Journal of Botany, 37: 715-724.

11.

Margalef R., (1958) Information theory in ecology. Gen Syst, 3: 157-175.

12.

Shannon C.E. and Weaver W., (1963) The mathematical theory of communication. Univ. Illinois press Urbana, pp. 177

13.

Shimpson, E.H. (1949) Measurement of diversity, Nature, 163: 688.

14.

Soeteart, K., Herman, P.M.J. and Kromkamp, J. (1994) Living in the twilight: estimating net phytoplankton growth in the Westerschelde estuary (The Netherlands) by means of an ecosystem model (MOSES). Journal of Plankton Research, 16: 1277– 1301.

15.

Sommer, U. (1995) Eutrophication related changes in phytoplankton species composition: is there a role of nutrient competition?, ICES-CM- 1995/T:7, 1995.

16.

Sommer, U. (1996) Nutrient competition experiments with periphyton from the Baltic Sea. Marine Ecology Progress Series, 140: 161–167.

17.

Tilman, D. (1997) Resource competition between planktonic algae, An experimental and theoretical approach, Ecology, 68: 338-348.

18.

Tilman, D., Kiesling, R., Sterner R., Kilham S.S. and Johnson, F.A. (1986) Green, bluegreen and diatom algae: taxonomic differences in competitive ability for phosphorus, silicon and nitrogen. Archiv. Hydrobiologie, 106: 473–485.

19.

Wikfors G.H. and Smolowitz R.M. (1993) Detrimental effects of a Prorocentrum isolate upon hard clams and bay scallops in laboratory feeding studies. In: Smayda, T.J., Shimizu, Y. (Eds.), Toxic Phytoplankton Blooms in the Sea. Elsevier, New York, pp. 447-452.

20.

심재형 (1994) 한국동식물도감 제34권 식물편 (해양식물플랑크톤), 교육부. 487 pp.

21.

이상준 (2009) 먹이가용성에 의한 고성만의 굴 양식장 수용력.경상대. 학위논문, pp. 132

22.

千原․村野 (1997) 日本産海洋プランクトン検索図説, 東海大学出 版会. pp. 1574

logo