[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.11626/KJEB.2020.38.2.231

Seasonal variation of the zooplankton community of Gamak Bay, Korea

Moon, Seong Yong (South Sea Fisheries Research Institute, National Institute of Fisheries Science)
Kim, Hee Yong (South Sea Fisheries Research Institute, National Institute of Fisheries Science)
Oh, Hyun Ju (Ocean Climate and Ecology Research Division, National Institute of Fisheries Science)

Publication Information

Korean Journal of Environmental Biology / v.38, no.2, 2020 , pp. 231-247 More about this Journal

Abstract

The seasonal variation in the zooplankton community and hydrographic conditions were examined in three regions (inner, central, and outer regions) of Gamak Bay, Korea. Zooplankton samples were collected over a period of 12 months from January to December 2006. The hydrographical parameters of temperature, salinity, chlorophyll-a concentrations, dissolved oxygen, and chemical oxygen demand were measured. The total zooplankton density varied from 411 to 58,485 ind. m^-3, with peaks in early summer. A total of 65 taxa accounted for approximately 86.9% of the annual mean zooplankton density: Noctiluca scintillans (30.9%) Paracalanus parvus s. l.(24.3%), Acartia omorii(11.9 %), Eurytemora pacifica (5.7%), cladocerans (4.1%), cirriped larvae (3.8%), Oithona similis (3.7%), and Pseudevedne tergestina(2.5%). Copepods dominated numerically throughout the year and comprised 54.3% of the total zooplankton. Most of the dominant copepods showed a well-defined seasonal pattern. The density and diversity of zooplankton in Gamak Bay were influenced by the hydrographic environment that was subject to significant spatial and temporal variations. Multivariate statistics showed that seasonal temperature was the most significant predictor of zooplankton taxa, density, and diversity, as well as the density of dominant taxa. Our results suggest that fluctuations in the zooplankton populations, particularly copepods, followed progressive increments in the temperature and COD concentrations.

Keywords

Gamak Bay; zooplankton community; copepods; Noctiluca scintillans; temperature; COD;

Citations & Related Records

Times Cited By KSCI : 3 (Citation Analysis)

Reference
Cited By KSCI

1	Badylak S and EJ Phlips. 2008. Spatial and temporal distributions of zooplankton in Tampa Bay, Florida, including observations during a HAB event. J. Plankton Res. 30:449-465. DOI
2	Ban S and T Minoda. 1994. Induction of diapause egg production in Eurytemora affinis by their own metabolites. Hydrobiologia 292/293:185-189. DOI
3	Cembella AD, DA Ibarra, J Diogene and E Dahl. 2005. Harmful algal blooms and their assessment in Fjorda and coastal embayments. Oceanography 18:158-171. DOI
4	Chisholm LA and JC Roff. 1990. Abundance, growth rates, and production of tropical neritic copepods off Kingston Jamaica. Mar. Biol. 106:79-89. DOI
5	Ramfos A, S Isari, S Somarakis, D Georgopoulos, C Koutsikopoulos and N Fragopoulu. 2006. Mesozooplankton community structure in offshore and coastal waters of the Ionian Sea (eastern Mediterranean) during mixed and stratified conditions. Mar. Biol. 150:29-44. DOI
6	Roman M, X Zhang, C McGilliard and W Boicourt. 2005. Seasonal and annual variability in spatial patterns and plankton biomass in Chesapeake Bay. Limnol. Oceanogr. 50:480-492. DOI
7	Romen MR, AL Guazens, WK Rhinehart and JR White. 1993. Effects of low-oxygen waters on Chesapeake Bay zooplankton. Limnol. Ocenogr. 38:1603-1614. DOI
8	Rong W, H Zhang, K Wang and T Zuo. 2002. Distribution and population dynamics of Paracalanus parvus, Paracalanus crassirostris, and Acartia bifilosa (Copepoda, Calanoida) in the Bohai Sea. Chin. J. Oceanol. Limnol. 20:348-357. DOI
9	Sekiguchi H and T Kato. 1976. Influence of Noctiluca's predation on the Acartia population in Ise Bay, Central Japan. J. Oceanogr. 32:195-198. DOI
10	Seo JY, SH Park, JH Lee and JW Choi. 2012. Structural changes in macrozoobenthic communities due to summer hypoxia in Gamak Bay, Korea. Ocean Sci. J. 47:27-40. DOI
11	Shannon E and W Weaver. 1963. The Mathematical Theory of Communication. Illinoise Univ. Press, Urbana, IL.
12	Sun XH, S Sun, CL Li and GT Zhang. 2011. Seasonal and spatial variability in egg production, abundance and production of small copepods in and near Jiaozhou Bay, China. J. Plankton Res. 33:741-750. DOI
13	Shim JH and I Ro. 1982. The composition and abundance distribution of zooplankton in the vicinity of Yeosu, Korea. Proc. Coll. Nat'l. Sci. Seoul Nat'l. Univ. 7:165-183.
14	Siokou-Frangou I and E Papathanassiou. 1991. Differentiation of zooplankton populations in a polluted area. Mar. Ecol. Prog. Ser. 76:41-51. DOI
15	Soh HY and HL Suh. 1993. Seasonal fluctuation of the abundance of the planktonic copepods in Kwangyang Bay. Korean J. Environ. Biol. 11:26-34.
16	Soh HY, IT Lee, YH Yoon, SD Choi, SN Lee, MI Han, BS Kim, YH Kang and WB Lee. 2002. Species composition and occurrence patterns of zooplankton in Gamag Bay. Korean J. Environ. Biol. 20:118-129.
17	Soh HY and SD Choi. 2004. Species composition and occurrence patterns of zooplankton in Jinhae Bay. Korean J. Environ. Biol. 22:43-56.
18	The Oceanographic Society of Japan. 1980. A Guide to Oceanographic Observations. The Oceanogaphy Society of Japan, Tokyo. p. 428.
19	Ueda H. 1982. Zooplankton investigations in Shijiki Bay II. Zooplankton communities from September 1975 to April 1976, with special reference to distributional characteristics of inlet copepod. Bull. Seikai. Reg. Fish. Res. Lab. 58:1-22.
20	Ueda H. 1987. Temporal and spatial distribution of the two closely related Acartia species A. omorii and A. hudsonica (Copepoda, Calanoida) in a small inlet water of Japan. Estuar. Coast. Shelf Sci. 24:691-700. DOI
21	Ueda H, A Kuwahara, M Tanaka and M Azeta. 1983. Underwater observations on copepod swarms in temperate and subtropical waters. Mar. Ecol. Prog. Ser. 11:165-171. DOI
22	Uriarte I and F Villate. 2004. Effects of pollution on zooplankton abundance and distribution in two estuaries of the Basque coast (Bay of Biscay). Mar. Pollut. Bull. 49:220-228. DOI
23	Uye S. 1985. Resting egg production as a life history strategy of marine planktonic copepods. Bull. Mar. Sci. 37:440-449.
24	Viitasalo M and T Katajisto. 1994. Mesozooplankton resting eggs in the Baltic Sea: identification and vertical distribution in laminated and mixed sediments. Mar. Biol. 120:455-466. DOI
25	Cho EI, CI Chung and SM Lee. 1996. Estimation of carrying capacity in Kamak Bay. II. estimation of carrying capacity of oyster culture ground. J. Korean Fish. Soc. 29:709-715.
26	Clarke C and JC Roff. 1990. Abundance and biomass of herbivorous zooplankton off Kingston, Jamaica, with estimates of their annual production. Estuar. Coast. Shelf Sci. 31:423-437. DOI
27	Clarke KR and RM Warwick. 2001. Change in Marine Communities: an Approach to Statistical Analysis and Interpretation, 2nd Edn., PRIMER-E, Limited, Phymouth Marine Laboratory, United Kingdom.
28	Uye S, T Shimazu, M Yamamuro, Y Ishitobi and H Kamiya. 2000. Geographical and seasonal variations in mesozooplankton abundance and biomass in relation to environmental parameters in Lake Shinji -Ohashi River-Lake Nakaumi brackish- water system, Japan. J. Mar. Syst. 26:193-207. DOI
29	Valiela I. 1991. Ecology of coastal ecosystems. pp. 57-76. In: Fundamentals of Aquatic Ecology (RSK Barnes and KH Mann, 2nd eds.). Oxford: Blackwell Scientific, Oxford, UK.
30	David V, B Sautour, R Galois and P Chaddy. 2006. The paradox high zooplankton biomass-low vegetal particulate organic matter in high turbidity zones: what way for energy transfer? J. Exp. Mar. Biol. Ecol. 333:202-218. DOI
31	Hairston Jr NG, AM Hansen and WR Schaffiner. 2000. The effect of diapause emergence on the seasonal dynamics of a zooplankton assemblage. Freshw. Biol. 45:133-145. DOI
32	Han DH, SY Hong and CW Ma. 1995. Distribution of zooplankton in Deukryang Bay. J. Korean Fish. Soc. 28:517-532.
33	Jang MC, KS Shin, PG Jang, WJ Lee and KH Choi. 2015. Mesozooplankton community in a seasonally hypoxic and highly eutrophic bay. Mar. Freshw. Res. 66:719-729. DOI
34	Jang MC, PG Jang, KS Shin, DW Park and M Chang. 2004. Seasonal variation of zooplankton community in Gwangyang Bay. Korean J. Environ. Biol. 22:11-29.
35	Kang HS, MH Seo, YS Yang, EO Park, YH Yoon, D Kim, HG Jeong and HY Soh. 2018. Zooplankton and neustonic microplastics in the surface layer of Yeosu coastal areas. Korean J. Environ. Biol. 36:11-20. DOI
36	Kang YS, JS Park, SS Lee, HG Kim and PY Lee. 1996. Zooplankton community and distributions of copepods in relation to eutrophic evaluation in Chinhae Bay. J. Korean Fish. Soc. 29:415-430.
37	Kim DY and HT Huh. 1983. Seasonal variations of copepods in Garolim Bay. Bull. Kor. Ocean. Res. Dev. Ins. 5:29-35.
38	Winkler G, JJ Dodson, N Bertrand, D Thivierge and WF Vincent. 2003. Trophic coupling across the St. Lawrence River estuarine transition zone. Mar. Ecol. Prog. Ser. 251:59-73. DOI
39	Wong CK, XJ Liu, YY Siu and JS Hwang. 2006. Study of selective feeding in the marine cladoceran Penilia avirostris by HPLC pigment analysis. J. Exp. Mar. Biol. Ecol. 331:21-32. DOI
40	Zar JH. 1984. Biostatistical Analysis. Prentice Hall Inc., Englewood Cliffs, NJ.
41	Kim JB, SY Lee, J Yu, YH Choi, CS Jung and PY Lee. 2006. The characteristics of oxygen deficient water mass in Gamak Bay. J. Kor. Soc. Mar. Environ. Eng. 9:216-224.
42	Leandro SM, F Morgado, F Pereira and H Queiroga. 2007. Temporal changes of abundance, biomass and production of copepod community in a shllow temperate estuary (Ria de Aveiro, Portugal). Estuar. Coast. Shelf Sci. 74:215-222. DOI
43	Kim SW and T Onbe. 1995. Distribution and zoogeography of the marine cladoceran Penilia avirostris in the northwestern Pacific. Bull. Plankton Soc. Japan 42:19-28.
44	Kimmel DG and M Romen. 2004. Long-term trends in mesozooplankton abundance in Chesapeake Bay, USA: influence of freshwater input. Mar. Ecol. Prog. Ser. 267:71-83. DOI
45	Kimor B. 1979. Predation by Noctiluca miliaris Souriray on Acartia tonsa Dana eggs in the inshore waters of southern California. Limnol. Oceanogr. 24:568-572. DOI
46	Lee CR, C Park, SR Yang and YS Sin. 2006. Spatio-temporal variation of mesozooplankton in Asan Bay. The Sea 11:1-10.
47	Lee KH and KD Cho. 1990. Distribution of the temperature and salinity in Kamak Bay. Bull. Korean Fish. Soc. 23:25-39.
48	Lee MO and JK Kim. 2008. Characteristics of algal blooms in the southern coastal waters of Korea. Mar. Environ. Res. 65:128-147. DOI
49	Lee YS and SY Moon. 2006. The water quality in the soho coastal seawaters of Gamak Bay before and after a typhoon. The Sea 11:117-123.
50	Liang D and S Uye. 1996a. Population dynamics and production of the planktonic copepods in a eutrophic inlet of the Inland Sea of Japan. II. Acartia omorii. Mar. Biol. 125:109-117. DOI
51	Moon SY, HY Soh, SD Choi, CS Jung, SY Kim and YS Lee. 2006a. Effect a low-oxygen layer on the vertical distribution of zooplankton in Gamak Bay. Korean J. Environ. Biol. 24:240-247.
52	Liang D and S Uye. 1996b. Population dynamics and production of the planktonic copepods in a eutrophic inlet of the Inland Sea of Japan. III. Paracalanus sp. Mar. Biol. 127:219-227. DOI
53	Marcus NH. 1996. Ecological and evolutionary significance of resting eggs in marine copepods: past, present, and future studies. Hydrobiologia 320:141-152. DOI
54	Moon SY, HJ Oh and SY Kim. 2009. Short-term variations of mesozooplankton related to the environmental factors in Gamak Bay during summer, 2006. J. Environ. Sci. 18:21-32.
55	Moon SY, HS Yoon, HY Soh and SD Choi. 2006b. Environmental factors and variation characteristics of zooplankton communities in Gamak Bay. Ocean Polar Res. 28:79-94. DOI
56	Nakamura Y. 1998. Biomass, feeding and production of Noctiluca scintillans in the Seto Inland Sea, Japan. J. Plankton Res. 20:2213-2222. DOI
57	Odum HT. 1983. Systems Ecology: An Introduction. John Wiley and Sons Inc, New York.
58	Park EO, HL Suh and HY Soh. 2015. Spatio-temporal distribution of Acartia (Copepoda: Calanoida) species along a salinity gradient in the Seomjin River estuary, South Korea. J. Nat. Hist. 49:1-14.
59	Park YC and KS Choi. 2002. Growth and carrying capacity of pacific oyster, Crassostrea gigas in Kamak Bay, Korea. Korean J. Environ. Biol. 20:378-385.
60	Parsons TR, Y Maita and CM Lalli. 1984. A Manual of Chemical and Biological Methods for Seawater Analysis. Pergamon Press, New York. p. 173.