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Relationship between Environmental Factors and Short-term Variations of Mesozooplankton During Summer in Jangmok Bay, South Coast of Korea
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  • Journal title : Ocean and Polar Research
  • Volume 32, Issue 1,  2010, pp.41-52
  • Publisher : Korea Institute of Ocean Science & Technology
  • DOI : 10.4217/OPR.2010.32.1.041
 Title & Authors
Relationship between Environmental Factors and Short-term Variations of Mesozooplankton During Summer in Jangmok Bay, South Coast of Korea
Jang, Min-Chul; Shin, Kyoung-Soon; Jang, Pung-Guk; Lee, Woo-Jin;
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Daily samples were collected during summer in order to analyse changes in the mesozooplankton community and to identify the major environmental factors that may influence mesozooplankton abundance in Jangmok Bay. A single site in the bay was sampled 47 times from July to September 2003. Mesozooplankton community, hydrographic (watertemperature, salinity, dissolvedoxygen) and biological (chlorophyll-a, ciliates densities, Noctiluca scintillans densities) factors were determined. The mesozooplankton abundance varied remarkably from 954 to . The six taxa of Evadne tergestina, barnacle nauplii and cypris, Paracalanus parvus s.1., Acartia omorii, Penilia avirostris and Sagitta crassa dominated numerically, contributing 86% of total mesozooplankton abundance. Stepwise multiple linear regression analysis was applied to find correlation between environmental factors and fluctuation in the abundance of dominant species and mesozooplankton. A. omorii was significantly correlated with temperature and N. scintillans densities. E. tergestina was correlated with temperature, salinity, and ciliate densities, whereas P. avirostris was correlated with temperature and dissolved oxygen. Among the environmental factors, mesozooplankton abundance correlated most strongly with N. scintillans densities. Accordingly, N. scintillans may be a key player in controlling the fluctuation of mesozooplankton abundance as a strong competitor for same food resources.
mesozooplankton;Noctiluca scintillans;Jangmok Bay;
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강영실, 박주석, 이삼석, 김학균, 이필용 (1996) 진해만 수질 환경과 동물플랑크톤 군집 및 요각류 분포 특성. 한국수산학회지 29:415-430

김영옥, 장민철 (2008) 남해 거제도 장목만에서 부유성 섬모충의 시기별 분포 특성. Ocean and Polar Res 30:419-426 crossref(new window)

문성용, 윤호섭, 서호영, 최상덕 (2006) 가막만 동물플랑크톤 군집의 변동특성과 환경요인. Ocean and Polar Res 28:79-94 crossref(new window)

유정규, 윤석현, 최중기 (2006) 인천 연안에서 요각류 Acartia hongi 춘계 개체군 형성의 영향 요인. 한국해양학회지 바다 11:108-116

장민철, 김웅서 (1998) 1996년 춘계 황해의 동물플랑크톤 분포와 환경특성. Ocean Res 20:19-28

장민철, 장풍국, 신경순, 박동원, 장만 (2004) 광양만 동물플랑크톤 군집의 계절 변화. 한국환경생물학회지 22:11-29

장민철, 장풍국, 이재도, 신경순 (2002) 거제 장목 marine station에서 단주기 관측을 통한 동물플랑크톤 군집의 천이과정 연구. 한국해양학회 2002년도 추계 학술발표대회요약집, 132 p

한국해양연구원 (2004) 단주기 관측을 이용한 해양 환경변화에 따른 부유생태계 변화 연구. 한국해양연구원, BSPE88600-1698-3, 66 p

Aladin NV, Potts WTW (1995) Osmoregulatory capacity of the Cladocera. J Comp Physiol B 164:671-683 crossref(new window)

Atkinson A (1996) Subarctic copepods in an oceanic, low chlorophyll environment: ciliate predation, food selectivity and impact on prey poopulations. Mar Ecol Prog Ser 130:85-96 crossref(new window)

Attrill MJ (2002) A testable linear model for diversity trends in estuaries. J Animal Ecol 71:262-269 crossref(new window)

Beaugrand G (2004) The North Sea regime shift: evidence, causes, mechanisms and consequences. Prog Oceanogr 60:245-262 crossref(new window)

Bone Q, Kapp H, Pierrot-Bults AC (1991) Introduction and relationships of the group. In: Bone Q, Kapp H, Pierrot-Bults AC (eds) The biology of chaetognaths. Oxford University Press, New York, pp 1-4

Bonnet D, Frid CLJ (2004) Seven copepod species considered as indicators of water-mass influence and changes: results from a Northumberland coastal station. ICES J Mar Sci 61:485-491 crossref(new window)

Bouvy M, Pagano MM, Boup M, Gop P, Troussellier M (2006) Functional structure of microbial food web in the Senegal River Estuary (West Africa): impact of metazooplankton J Plankton Res 28:195-207 crossref(new window)

Buskey EJ (1995) Growth and bioluminescense of Noctiluca scintillans on varying algal diets. J Plankton Res 17:29-40 crossref(new window)

Calliari D, Andersen Borg MC, Thor P, Gorokhova E, Tiselius P (2008) Instantaneous salinity reductions affect the survival and feeding rates of the co-occurring copepods Acartia tonsa Dana and A. clausi Giesbrecht differently. J Exp Mar Ecol 362:18-25 crossref(new window)

Calliari D, Andersen MC, Thor P, Gorokhova E, Tiselius P (2006) Salinity modulates the energy balance and reproductive success of co-occurring copepods Acartia tonsa and A. clausi in different ways. Mar Ecol Prog Ser 312:177-188 crossref(new window)

Clarke KR, Gorley RN (2006) PRIMER v6: User manual/tutorial, PRIMER-E, Plymouth UK

Da Rocha CEF (1985) The occurrence of Pleopis schmackeri (Poppe) in the southern Atlantic and other marine cladocerans on the Brazilian coast. Crustaceana 49:202-204 crossref(new window)

Daan R (1987) Impact of egg predation by Noctiluca miliaris on the summer development of copepod populations in the southern North Sea. Mar Ecol Prog Ser 37:9-17 crossref(new window)

Egloff DA, Fofanoff PW, Onbe T (1997) Reproductive biology of marine cladocerans. Adv Mar Biol 31:79-167 crossref(new window)

Elbrachter M, Qi ZY (1998) Aspect of Noctiluca (Dinophyceae) population dynamics. In: Anderson DM, Cembella AD, Hallegraeff MG (eds) Physiological ecology of harmful algal blooms, NATO ASI Series, vol G41. Springer-Verlag, Berlin, pp 315-335

Gifford SM, Rollwagen-Bollens GC, Bollens SM (2007) Mesozooplankton omnivory in the upper San Francisco Estuary. Mar Ecol Prog Ser 348:33-46 crossref(new window)

Greenwood A, O'Riordan RM, Barnes DKA (2001) Seasonality and vertical zonation of zooplankton in a semi-enclosed sea lough. J Mar Biol Assoc UK 81:213-220 crossref(new window)

Islam MS, Hibino M, Tanaka M (2006) Distribution and diets of larval and juvenile fishes: influence of salinity gradient and turbidity maximum in a temperate estuary in upper Ariake Bay, Japan. Estuar Coast Shelf Sci 68:62-74 crossref(new window)

Kaartvedt S, Aksnes DL (1992) Does freshwater discharge cause mortality of fjord-living zooplankton? Estuar Coast Shelf Sci 34:305-313 crossref(new window)

Kirchner M, Sahling G, Uhlig G, Gunkel W, Klings KW (1996) Does the red tide-forming dinoflagellate Noctiluca scintillans feed on bacteria? Sarsia 81:45-55 crossref(new window)

Lang WH, Ackenhusen-Johns A (1981) Seasonal species composition of barnacle larvae (Cirripedia: Thoracica) in Rhode Island waters, 1977-1978. J Plankton Res 3:567-575 crossref(new window)

Lee SH, Choi JK (2008) Distribution pattern of zooplankton in the Han River estuary with respect to tidal cycle. Ocean Sci J 43:135-146 crossref(new window)

Lee SY, Choi CI, Suh Y, Mukai H (2005a) Seasonal variation in morphology, growth and reproduction of Zostera caespitosa on the southern coast of Korea. Aquat Bot 83:250-262 crossref(new window)

Lee WJ, Shin K, Jang PG, Jang MC, Chang M, Park NJ (2005b) Summer pattern of phytoplankton distribution at a station in Jangmok Bay. Ocean Sci J 40:109-117

Marazzo A, Valentin JL (2001) Spatial and temporal variations of Penilia avirostris and Pseudevadne tergestina (Crustacea, Branchiopoda) in a Tropical Bay, Brazil. Hydrobiologia 445:133-139 crossref(new window)

Mauchline J (1998) The biology of calanoid copepods. Adv Mar Biol 33:1701

Miyaguchi H, Fujiki T, Kikuchi T, Kuwahara VS, Toda T (2006) Relationship between the bloom of Noctiluca scintillans and environmental factors in the coastal waters of Sagami Bay, Japan. J Plankton Res 28:313-324 crossref(new window)

Nakamura Y (1998) Biomass, feeding and production of Noctiluca scintillans in the Seto Inland Sea, Japan. J Plankton Res 20:2213-2222 crossref(new window)

Nomura H, Aihara K, Ishimaru T (2007) Feeding of the chaetognath Sagitta crassa Tokioka in heavily eutrophicated Tokyo Bay, Japan. Plankton Benthos Res 2:120-127 crossref(new window)

Ohman MD, Runge JA (1994) Sustained fecundity when phytoplankton resources are in short supply: omnivory by Calanus finmarchicus in the Gulf of St. Lawrence. Limnol Oceanogr 39:21-36 crossref(new window)

Omorii M, Ikeda T (1984) Methods in marine zooplankton ecology. John Wiley & Sons, New York, 25 p

Onbe T (1974) Studies on the ecology of marine cladocerans. J Fac Fish Anim Husb, Hiroshima Univ 13:83-179

Parsons TR, Maita Y, Lalli CM (1984) A manual of chemical and biological methods for seawater analysis. Pergamon Press, Oxford, 173 p

Quevedo M, Gonzalez-Quiros R, Anadon R (1999) Evidence of heavy predation by Noctiluca scintillans on Acartia clausi (Copepoda) eggs off the central Cantabrian coast (NW Spain). Oceanol Acta 22:127-31 crossref(new window)

Rippingale RJ, Hodgkin EP (1977) Food availability and salinity tolerance in a brackish water copepod. Aust J Mar Freshwater Res 28:1-7 crossref(new window)

Sherr EB, Sherr BF (2002) Significance of predation by protists in aquatic microbial food webs. Antonie Van Leeuwenhoek 81:293-308 crossref(new window)

Soetaert K, Herman PMJ (1994) One foot in the grave: zooplankton drift into the Westerschelde estuary (The Netherlands). Mar Ecol Prog Ser 105:19-29 crossref(new window)

Stoecker DK, Capuzzo JM (1990) Predation on protozoa: its importance to zooplankton. J Plankton Res 12:891-908 crossref(new window)

Strom SL (2001) Light-aided digestion, grazing and growth in herbivorous protists. Aquat Microb Ecol 23:253-261 crossref(new window)

Turner JT, Roff JC (1993) Trophic levels and trophospecies in marine plankton: lessons from the microbial food web. Mar Microb Food Webs 7:225-248

Turner JT, Tester PA, Ferguson RL (1988) The marine cladoceran Penilia avirostris and the microbial loop of pelagic food webs. Limnol Oceanogr 33:245-255 crossref(new window)

Uye S (1981) Fecundity studies of neritic calanoid copepods Acartia clausi Giesbrecht and A. steueri Smimov: a simple empirical model of daily egg production. J Exp Mar Biol Ecol 50:255-271 crossref(new window)

Vinas MD, Ramírez FC, Santos BA, Marrari M (2007) Spatial and temporal distribution patterns of Cladocera in the Argentine Sea. Hydrobiologia 594:59-68 crossref(new window)

Yilmaz IN, Okus E, Yuksek A (2005) Evidences for influence of a heterotrophic dinoflagellate (Noctiluca scintillans) on zooplankton community structure in a highly stratified basin. Estuar Coast Shelf Sci 64:475-485 crossref(new window)

Yoon SH, Choi JK (2003) Seasonal changes in zooplankton community in the coastal waters off Incheon. J Korean Soc Oceanogr 38:111-121